Exemplo n.º 1
0
def test_ft_ansible_playbooks_chk_use_vdi():
    device_ip = st.get_mgmt_ip(vars.D1)
    result = True
    if not ansible_obj.verify_ansible_playbook_vdi(
            vars.D1, "ping.yml", host=device_ip, ok="1", fail="0"):
        result = False
        st.report_tc_fail("ft_ansible_host_ping_playbook", "ansible_fail")
        st.report_tc_fail("ft_ansible_host_ping_using_pwd", "ansible_fail")
        st.report_tc_fail("ft_ansible_host_ping_using_ssh", "ansible_fail")
        st.report_tc_fail("ft_ansible_host_multiple_grp_ping", "ansible_fail")
    else:
        st.report_tc_pass("ft_ansible_host_ping_playbook",
                          "ansible_playbook_success")
        st.report_tc_pass("ft_ansible_host_ping_using_pwd",
                          "ansible_playbook_success")
        st.report_tc_pass("ft_ansible_host_ping_using_ssh",
                          "ansible_playbook_success")
        st.report_tc_pass("ft_ansible_host_multiple_grp_ping",
                          "ansible_playbook_success")
    if not ansible_obj.verify_ansible_playbook_vdi(
            vars.D1, "fact.yml", host=device_ip, ok="2", fail="0"):
        result = False
        st.report_tc_fail("ft_ansible_host_fact_playbook", "ansible_fail")
    else:
        st.report_tc_pass("ft_ansible_host_fact_playbook",
                          "ansible_playbook_success")
    if not ansible_obj.verify_ansible_playbook_vdi(
            vars.D1, "fact_false.yml", host=device_ip, ok="1", fail="0"):
        result = False
        st.report_tc_fail("ft_ansible_fact_cmd_line", "ansible_fail")
        st.report_tc_fail("ft_ansible_host_adhoc_cmd", "ansible_fail")
    else:
        st.report_tc_pass("ft_ansible_fact_cmd_line",
                          "ansible_playbook_success")
        st.report_tc_pass("ft_ansible_host_adhoc_cmd",
                          "ansible_playbook_success")
    if not ansible_obj.verify_ansible_playbook_vdi(
            vars.D1, "copy.yml", host=device_ip, ok="2", fail="0"):
        result = False
        st.report_tc_fail("ft_ansible_copy_playbook", "ansible_fail")
    else:
        st.report_tc_pass("ft_ansible_copy_playbook",
                          "ansible_playbook_success")
    if not ansible_obj.verify_ansible_playbook_vdi(
            vars.D1, "role_test.yml", host=device_ip, fail="0"):
        result = False
        st.report_tc_fail("ft_ansible_playbook_role", "ansible_fail")
        st.report_tc_fail("ft_ansible_playbook_tags", "ansible_fail")
        st.report_tc_fail("ft_ansible_package_chk_using_cmd", "ansible_fail")
    else:
        st.report_tc_pass("ft_ansible_playbook_role",
                          "ansible_playbook_success")
        st.report_tc_pass("ft_ansible_playbook_tags",
                          "ansible_playbook_success")
        st.report_tc_pass("ft_ansible_package_chk_using_cmd",
                          "ansible_playbook_success")
    if not ansible_obj.verify_ansible_playbook_vdi(
            vars.D1, "handler.yml", host=device_ip, fail="0"):
        result = False
        st.report_tc_fail("ft_ansible_playbook_handler", "ansible_fail")
    else:
        st.report_tc_pass("ft_ansible_playbook_handler",
                          "ansible_playbook_success")
    if result:
        st.report_pass("ansible_playbook_success")
    else:
        st.report_fail("ansible_fail")
Exemplo n.º 2
0
def test_l3_perf_tc_14_3():
    if (data.result_14_3 is True):
        #measure_v4_route_scale_time(80000, True)
        st.report_pass("test_case_passed")
Exemplo n.º 3
0
def test_l3_perf_tc_13_4():
    if (data.result[3] == 1):
        st.report_pass("test_case_passed")
    else:
        st.report_fail("test_case_failed")
Exemplo n.º 4
0
def rest_rbac_call(dut, **kwargs):
    """
    Call to test REST sessions using diff users w.r.t RBAC.
    Author : Prudvi Mangadu ([email protected])
    :param dut:
    :param kwargs:
    :return:
    """
    st.log('Performing REST call using - {}'.format(kwargs))
    for each in ['login_type', 'username', 'password', 'mode']:
        if not kwargs.get(each):
            st.error("Mandatory argument is not found - {}".format(each))
            return False

    result = {'get': True, 'put': True}
    result2 = True
    pass_status = [200, 204]
    fail_status = [401, 403]
    username = kwargs.get('username')
    password = kwargs.get('password')
    login_type = kwargs.get('login_type')
    mode = kwargs.get('mode')
    cert = kwargs.get("cert")
    model = kwargs.get('model')
    url = kwargs.get('url')
    if model == 'oc-yang':
        operation1 = {"openconfig-interfaces:mtu": 9216}
        operation2 = {"openconfig-interfaces:mtu": 9100}
    else:
        operation1 = {"sonic-port:admin_status": "down"}
        operation2 = {"sonic-port:admin_status": "up"}

    if login_type == 'cred':
        headers1 = {'Content-Type': 'application/yang-data+json', 'Accept': 'application/yang-data+json'}
        rest_get_out = rest_call(dut, headers=headers1, username=username, password=password, url=url, call_type='get')
        st.log(rest_get_out)
        rest_put_out = rest_call(dut, headers=headers1, username=username, password=password, url=url, call_type='put',
                                 data=operation1)
        st.log(rest_put_out)

    elif login_type == 'token':
        headers2 = {'Content-Type': 'application/yang-data+json', 'Accept': 'application/yang-data+json',
                    'Authorization': 'Bearer {}'}
        tocken = get_jwt_token(dut, username=username, password=password)
        if not tocken:
            st.report_fail('rbac_test_jwt_token_fail', mode, login_type)
        headers2['Authorization'] = headers2['Authorization'].format(tocken)
        rest_get_out = rest_call(dut, headers=headers2, url=url, call_type='get')
        st.log(rest_get_out)
        rest_put_out = rest_call(dut, headers=headers2, url=url, call_type='put', data=operation2)
        st.log(rest_put_out)

    elif login_type == 'cert':
        port1 = st.get_free_ports(dut)[0].replace("/", "%2F")
        url2 = '/restconf/data/sonic-port:sonic-port/PORT/PORT_LIST={}/admin_status'.format(port1)
        get_curl = 'curl --key {} --cert {} ' "'https://localhost{}'" ' -k'.format(cert[0], cert[1], url2)
        out = st.show(dut, get_curl, skip_tmpl=True, skip_error_check=True)
        rest_get_out = {'status': 401}
        rest_put_out = {'status': 200}
        if 'sonic-port:admin_status' in out:
            rest_get_out = {'status': 200}

    else:
        st.error("Invalid 'login_type' used = {}".format(login_type))
        return False

    if not (rest_get_out and rest_put_out):
        st.report_fail('rbac_call_fail', "REST", mode, login_type)

    msg = 'Failed to authenticate  using rest session with mode- {mode}, type- {login_type}'
    if mode == 'rw' and not (rest_get_out["status"] in pass_status and rest_put_out["status"] in pass_status):
        st.error(msg.format(**kwargs))
        result2 = False
    if mode == 'ro' and not (rest_get_out["status"] in pass_status and rest_put_out["status"] in fail_status):
        st.error(msg.format(**kwargs))
        result2 = False

    if not result2:
        st.report_fail('rbac_test_status', 'Fail', mode, 'REST', login_type, result)
    st.report_pass('rbac_test_status', 'Pass', mode, 'REST', login_type, result)
Exemplo n.º 5
0
def test_l3_perf_tc_11_3():
    measure_v4_route_scale_time(60000, False)
    st.report_pass("test_case_passed")
Exemplo n.º 6
0
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")
Exemplo n.º 7
0
def test_ft_mclag_with_rpvst_failover_tests_2_tier():
    if lib_stp.lib_stp_mclag_failover_tests():
        st.report_pass('test_case_passed')
    else:
        st.report_fail('test_case_failed')
Exemplo n.º 8
0
def test_ft_bgp_unnumbered_manual_ll():
    """
    # ################ Author Details ################
    # Name: Sesha Reddy Koilkonda
    # Email: [email protected]
    # ################################################
    :return:
    """
    utils_obj.banner_log(
        'FtOtSoRtBgpUnFn013,FtOtSoRtBgpUnFn014,FtOtSoRtBgpUnFn015')
    result = 0
    # Configure the Link-local manually on Dut1 and auto link-local on DUT2 and verify the neighbourship.
    bgp_obj.cleanup_router_bgp(st.get_dut_names())
    ip_obj.config_ip_addr_interface(vars.D1,
                                    vars.D1D2P1,
                                    data.ip6_addr_manual_ll[0],
                                    96,
                                    family='ipv6')
    dict1 = {
        'config': 'yes',
        'router_id': data.d1_rid,
        'addr_family': 'ipv6',
        'local_as': data.d1_local_as,
        'remote_as': 'external',
        'config_type_list': ["remote-as", "activate"],
        'interface': vars.D1D2P1,
        'neighbor': vars.D1D2P1
    }
    dict2 = {
        'config': 'yes',
        'router_id': data.d2_rid,
        'addr_family': 'ipv6',
        'local_as': data.d2_local_as,
        'remote_as': 'external',
        'config_type_list': ["remote-as", "activate"],
        'interface': vars.D2D1P1,
        'neighbor': vars.D2D1P1
    }
    parallel.exec_parallel(True, [vars.D1, vars.D2], bgp_obj.config_bgp,
                           [dict1, dict2])
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D1,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D1D2P1,
                           state='Established'):
        st.error(
            "Failed to form BGP unnumbered peering using IPv6 link local with the Manual-Auto link-local address combination."
        )
        result += 1
    # with the manual link-local on Dut1 and configure the link-local on DUT2 also manually and verify the neighbourship.
    bgp_obj.cleanup_router_bgp(st.get_dut_names())
    ip_obj.config_ip_addr_interface(vars.D2,
                                    vars.D2D1P1,
                                    data.ip6_addr_manual_ll[1],
                                    96,
                                    family='ipv6')
    parallel.exec_parallel(True, [vars.D1, vars.D2], bgp_obj.config_bgp,
                           [dict1, dict2])
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D1,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D1D2P1,
                           state='Established'):
        st.error(
            "Failed to form BGP unnumbered peering using IPv6 link local with the manual-manual link-local address combination."
        )
        result += 1
    # update the manual link-local on Dut2 and verify the neighbourship.
    bgp_obj.cleanup_router_bgp(st.get_dut_names())
    data.ip6_addr_ll3 = 'FE80:0:0:0:204:5FF:FE00:500'
    ip_obj.config_ip_addr_interface(vars.D2,
                                    vars.D2D1P1,
                                    data.ip6_addr_manual_ll[2],
                                    96,
                                    family='ipv6')
    parallel.exec_parallel(True, [vars.D1, vars.D2], bgp_obj.config_bgp,
                           [dict1, dict2])
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D1,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D1D2P1,
                           state='Established'):
        st.error(
            "Failed to form BGP unnumbered peering using IPv6 link local, after uodating the manual link-local address on peer DUT.."
        )
        result += 1
    bgp_obj.cleanup_router_bgp(st.get_dut_names())
    ip_obj.config_ip_addr_interface(vars.D1,
                                    vars.D1D2P1,
                                    data.ip6_addr_manual_ll[0],
                                    96,
                                    family='ipv6',
                                    config='remove')
    ip_obj.config_ip_addr_interface(vars.D2,
                                    vars.D2D1P1,
                                    data.ip6_addr_manual_ll[1],
                                    96,
                                    family='ipv6',
                                    config='remove')
    ip_obj.config_ip_addr_interface(vars.D2,
                                    vars.D2D1P1,
                                    data.ip6_addr_manual_ll[2],
                                    96,
                                    family='ipv6',
                                    config='remove')
    if result == 0:
        st.report_pass("test_case_passed")
    else:
        st.error(
            "BGP unnumbered neighborship failed with the manual link-local address configuration."
        )
        st.report_fail("test_case_failed")
Exemplo n.º 9
0
def test_ft_bgp_unnumbered_nondefault_vrf():
    """
    # ################ Author Details ################
    # Name: Sesha Reddy Koilkonda
    # Email: [email protected]
    # ################################################
    :return:
    """
    utils_obj.banner_log("FtOtSoRtBgpUnFn016,FtOtSoRtBgpUnFn017")
    result = 0
    bgp_obj.cleanup_router_bgp(st.get_dut_names())
    dict1 = {'vrf_name': data.vrf_name, 'skip_error': True}
    parallel.exec_parallel(True, [vars.D1, vars.D2], vrf_api.config_vrf,
                           [dict1, dict1])
    utils.exec_all(True, [[
        ip_obj.config_interface_ip6_link_local, vars.D1, vars.D1D2P1, "disable"
    ], [
        ip_obj.config_interface_ip6_link_local, vars.D2, vars.D2D1P1, "disable"
    ]])
    dict1 = {
        'vrf_name': data.vrf_name,
        'intf_name': vars.D1D2P1,
        'skip_error': True
    }
    dict2 = {
        'vrf_name': data.vrf_name,
        'intf_name': vars.D2D1P1,
        'skip_error': True
    }

    parallel.exec_parallel(True, [vars.D1, vars.D2],
                           vrf_api.bind_vrf_interface, [dict1, dict2])
    utils.exec_all(
        True, [[ip_obj.config_interface_ip6_link_local, vars.D1, vars.D1D2P1],
               [ip_obj.config_interface_ip6_link_local, vars.D2, vars.D2D1P1]])
    utils.exec_all(True,
                   [[ip_obj.get_interface_ip_address, vars.D1, None, "ipv6"],
                    [ip_obj.get_interface_ip_address, vars.D2, None, "ipv6"]])
    dict1 = {
        'vrf_name': data.vrf_name,
        'router_id': data.d1_rid,
        'local_as': data.d1_local_as,
        'addr_family': 'ipv6',
        'neighbor': vars.D1D2P1,
        'remote_as': 'external',
        'config_type_list': ["remote-as", "activate"],
        'interface': vars.D1D2P1
    }
    dict2 = {
        'vrf_name': data.vrf_name,
        'router_id': data.d2_rid,
        'local_as': data.d2_local_as,
        'addr_family': 'ipv6',
        'neighbor': vars.D2D1P1,
        'remote_as': 'external',
        'config_type_list': ["remote-as", "activate"],
        'interface': vars.D2D1P1
    }
    parallel.exec_parallel(True, [vars.D1, vars.D2], bgp_obj.config_bgp,
                           [dict1, dict2])

    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D1,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D1D2P1,
                           vrf=data.vrf_name,
                           state='Established'):
        st.error(
            "BGP unnumbered neighbourship with the non-default vrf configuration failed."
        )
        result += 1
    st.log('######------Save and reboot------######')
    reboot_obj.config_save(vars.D1, "sonic")
    reboot_obj.config_save(vars.D1, "vtysh")

    st.reboot(vars.D1)
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D1,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D1D2P1,
                           vrf=data.vrf_name,
                           state='Established'):
        st.error(
            "BGP unnumbered neighbourship with the non-default vrf configuration failed after save and reboot."
        )
        result += 1
    st.log('######------Config reload with BGP unnumbered------######')
    st.log("Config reload the DUT")
    reboot_obj.config_save_reload(vars.D1)
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D1,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D1D2P1,
                           vrf=data.vrf_name,
                           state='Established'):
        st.error(
            "BGP unnumbered neighbourship with the non-default vrf configuration failed after config reload."
        )
        result += 1
    # unconfig part:

    dict1 = {
        'vrf_name': data.vrf_name,
        'local_as': data.d1_local_as,
        'config': 'no',
        'removeBGP': 'yes',
        'config_type_list': ['removeBGP']
    }
    dict2 = {
        'vrf_name': data.vrf_name,
        'local_as': data.d2_local_as,
        'config': 'no',
        'removeBGP': 'yes',
        'config_type_list': ['removeBGP']
    }
    parallel.exec_parallel(True, [vars.D1, vars.D2], bgp_obj.config_bgp,
                           [dict1, dict2])
    utils.exec_all(True, [[
        ip_obj.config_interface_ip6_link_local, vars.D1, vars.D1D2P1, "disable"
    ], [
        ip_obj.config_interface_ip6_link_local, vars.D2, vars.D2D1P1, "disable"
    ]])
    dict1 = {
        'vrf_name': data.vrf_name,
        'intf_name': vars.D1D2P1,
        'skip_error': True,
        'config': 'no'
    }
    dict2 = {
        'vrf_name': data.vrf_name,
        'intf_name': vars.D2D1P1,
        'skip_error': True,
        'config': 'no'
    }
    parallel.exec_parallel(True, [vars.D1, vars.D2],
                           vrf_api.bind_vrf_interface, [dict1, dict2])
    dict1 = {'vrf_name': data.vrf_name, 'skip_error': True, 'config': 'no'}
    parallel.exec_parallel(True, [vars.D1, vars.D2], vrf_api.config_vrf,
                           [dict1, dict1])
    bgp_obj.cleanup_router_bgp(st.get_dut_names())
    utils.exec_all(
        True,
        [[ip_obj.config_interface_ip6_link_local, vars.D1, d1_int_ipv6_list],
         [ip_obj.config_interface_ip6_link_local, vars.D2, d2_int_ipv6_list]])
    if result == 0:
        st.report_pass("test_case_passed")
    else:
        st.error(
            "BGP unnumbered neighborship failed with the non-default vrf configuration."
        )
        st.report_fail("test_case_failed")
Exemplo n.º 10
0
def test_ft_bgp_unnumbered_rmap():
    """
    # ################ Author Details ################
    # Name: Sesha Reddy Koilkonda
    # Email: [email protected]
    # ################################################
    :return:
    """
    utils_obj.banner_log('FtOtSoRtBgpUnFn010,FtOtSoRtBgpUnFn016')
    result = 0
    network_ipv6 = '6002:1::0/64'

    bgp_obj.config_bgp(config='yes',
                       dut=vars.D2,
                       local_as=data.d2_local_as,
                       addr_family='ipv6',
                       neighbor=vars.D2D1P1,
                       weight='35000',
                       config_type_list=["weight"])
    bgp_obj.config_bgp_network_advertise(vars.D1,
                                         data.d1_local_as,
                                         network_ipv6,
                                         addr_family='ipv6',
                                         config='yes',
                                         network_import_check=True)
    st.wait(60)
    n1 = ip_obj.verify_ip_route(vars.D2,
                                family='ipv6',
                                shell='sonic',
                                ip_address='6002:1::/64')
    if (n1 is False):
        st.error("Failed to advertise the ipv6 network to the peer")
        result += 1
    bgp_obj.get_ip_bgp_route(vars.D2, family="ipv6", network="6002:1/64")
    # Add route-map to advertised network
    ip_obj.config_access_list(vars.D1,
                              'Ubgp-access-list1',
                              network_ipv6,
                              'deny',
                              family='ipv6',
                              seq_num="1")
    ip_obj.config_route_map_match_ip_address(vars.D1,
                                             'Ubgp-rmap',
                                             'deny',
                                             '10',
                                             'Ubgp-access-list1',
                                             family='ipv6')
    bgp_obj.advertise_bgp_network(vars.D1,
                                  data.d1_local_as,
                                  network_ipv6,
                                  'Ubgp-rmap',
                                  family='ipv6')
    # verify route-map to advertised network
    n1 = ip_obj.verify_ip_route(vars.D2,
                                family='ipv6',
                                shell='sonic',
                                ip_address='6002:1::/64')
    if (n1 is True):
        st.error(
            "Advertised network is not filtered by the configured route map")
        result += 1
    else:
        st.log("As expected, advertised network is filtered by the route map.")
    # Veirfy the BGP unnumbered neighbourship post r-map config
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D1,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D1D2P1,
                           state='Established'):
        st.error(
            "Failed to form BGP unnumbered peering using IPv6 link local, with the route map configuration."
        )
        result += 1
    # Unconfig the r-map and verify the BGP neighbourship
    ip_obj.config_route_map_mode(vars.D1,
                                 'Ubgp-rmap',
                                 'deny',
                                 '10',
                                 config='no')
    ip_obj.config_access_list(vars.D1,
                              'Ubgp-access-list1',
                              network_ipv6,
                              'deny',
                              config='no',
                              family='ipv6',
                              seq_num="1")
    bgp_obj.config_bgp(config='no',
                       dut=vars.D2,
                       local_as=data.d2_local_as,
                       addr_family='ipv6',
                       neighbor=vars.D2D1P1,
                       weight='35000',
                       config_type_list=["weight"])
    bgp_obj.config_bgp_network_advertise(vars.D1,
                                         data.d1_local_as,
                                         network_ipv6,
                                         addr_family='ipv6',
                                         config='no')
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D1,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D1D2P1,
                           state='Established'):
        st.error(
            "Failed to form BGP unnumbered peering using IPv6 link local, after route map un-configuration."
        )
        result += 1
    if result == 0:
        st.report_pass("test_case_passed")
    else:
        st.error(
            "BGP unnumbered neighborship failed with the route map configuration."
        )
        st.report_fail("test_case_failed")
Exemplo n.º 11
0
def test_ft_bgp_unnumbered_rr():
    """
    # ################ Author Details ################
    # Name: Sesha Reddy Koilkonda
    # Email: [email protected]
    # ################################################
    :return:
    """
    utils_obj.banner_log('FtOtSoRtBgpUnFn011,FtOtSoRtBgpUnFn012')
    result = 0

    bgp_obj.cleanup_router_bgp(st.get_dut_names())
    dict1 = {
        'config': 'yes',
        'router_id': data.d1_rid,
        'addr_family': 'ipv6',
        'local_as': data.d1_local_as,
        'remote_as': 'internal',
        'config_type_list': ["remote-as", "activate"],
        'interface': vars.D1D2P1,
        'neighbor': vars.D1D2P1
    }
    dict2 = {
        'config': 'yes',
        'router_id': data.d2_rid,
        'addr_family': 'ipv6',
        'local_as': data.d1_local_as,
        'remote_as': 'internal',
        'config_type_list': ["remote-as", "activate"],
        'interface': vars.D2D1P1,
        'neighbor': vars.D2D1P1
    }
    parallel.exec_parallel(True, [vars.D1, vars.D2], bgp_obj.config_bgp,
                           [dict1, dict2])
    result_rr = bgp_obj.create_bgp_route_reflector_client(
        vars.D1, data.d1_local_as, 'ipv6', vars.D1D2P1, 'yes')
    if not result_rr:
        st.error(
            "BGP SP - Configuring client reflection on {} {} bgp {} Failed".
            format(vars.D1, 'ipv6', data.d1_local_as))
        result += 1
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D1,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D1D2P1,
                           state='Established'):
        st.error(
            "Failed to form iBGP unnumbered peering using IPv6 link local with Route-reflector-client config"
        )
        result += 1
    # Unconfiguration
    bgp_obj.create_bgp_route_reflector_client(vars.D1,
                                              data.d1_local_as,
                                              'ipv6',
                                              vars.D1D2P1,
                                              config='no')

    bgp_obj.cleanup_router_bgp(st.get_dut_names())
    if result == 0:
        st.report_pass("test_case_passed")
    else:
        st.error(
            "BGP unnumbered neighborship failed with the Route-reflector-client configuration failed."
        )
        st.report_fail("test_case_failed")
Exemplo n.º 12
0
def test_ft_bgp_unnumbered_traffic():
    """
    # ################ Author Details ################
    # Name: Sesha Reddy Koilkonda
    # Email: [email protected]
    # ################################################
    :return:
    """
    utils_obj.banner_log('FtOtSoRtBgpUnFn021')
    (tg1, tg2, tg_ph_1, tg_ph_2) = get_handles()
    dut1_mac = basic_obj.get_ifconfig_ether(vars.D1, vars.D1T1P1)
    h1 = tg1.tg_interface_config(port_handle=tg_ph_1,
                                 mode='config',
                                 intf_ip_addr=data.tg_ip4_addr_l[0],
                                 gateway=data.tgd_ip4_addr_l[0],
                                 src_mac_addr='00:0a:01:00:00:01',
                                 arp_send_req='1')
    h2 = tg2.tg_interface_config(port_handle=tg_ph_2,
                                 mode='config',
                                 intf_ip_addr=data.tg_ip4_addr_l[1],
                                 gateway=data.tgd_ip4_addr_l[1],
                                 src_mac_addr='00:0a:01:00:00:01',
                                 arp_send_req='1')
    # Advertise a network to peer
    network = '55.1.1.0/24'
    bgp_obj.advertise_bgp_network(vars.D2, data.d2_local_as, network)
    stream_tg1 = tg1.tg_traffic_config(port_handle=tg_ph_1,
                                       mode='create',
                                       transmit_mode="single_burst",
                                       length_mode='fixed',
                                       pkts_per_burst=1000,
                                       mac_src='00.00.00.11.12.53',
                                       mac_dst=dut1_mac,
                                       l3_protocol='ipv4',
                                       ip_src_addr=data.tg_ip4_addr_l[0],
                                       ip_dst_addr=data.tg_ip4_addr_l[1],
                                       port_handle2=tg_ph_2)
    stream_id = stream_tg1['stream_id']
    tg1.tg_traffic_control(action='run', stream_handle=stream_id)
    st.wait(5)
    tg1.tg_traffic_control(action='stop', stream_handle=stream_id)
    traffic_details = {
        '1': {
            'tx_ports': [vars.T1D1P1],
            'tx_obj': [tg1],
            'exp_ratio': [1],
            'rx_ports': [vars.T1D2P1],
            'rx_obj': [tg2],
            'stream_list': [(stream_id)],
        }
    }
    # verify statistics
    aggrResult = validate_tgen_traffic(traffic_details=traffic_details,
                                       mode='aggregate',
                                       comp_type='packet_count')
    tg1.tg_traffic_control(action='reset', port_handle=tg_ph_1)
    tg1.tg_interface_config(port_handle=tg_ph_1,
                            handle=h1['handle'],
                            mode='destroy')
    tg2.tg_interface_config(port_handle=tg_ph_2,
                            handle=h2['handle'],
                            mode='destroy')
    bgp_obj.advertise_bgp_network(vars.D2,
                                  data.d2_local_as,
                                  network,
                                  config='no')
    if aggrResult:
        st.log("IPv4 traffic over BGPv6 unnumbered neighbour is passed")
        st.report_pass("test_case_passed")
    else:
        st.error("IPv4 traffic over BGPv6 unnumbered neighbour is failed.")
        st.report_fail("test_case_failed")
Exemplo n.º 13
0
def test_ft_bgp_unnumbered_clear_bgp_ndp():
    # ################ Author Details ################
    # Name: Kiran Vedula
    # Email: [email protected]
    # ################################################
    utils_obj.banner_log(
        'FtOtSoRtBgpUnFn004,FtOtSoRtBgpUnFn005,FtOtSoRtBgpUnFn007')
    result = 0
    st.log('######------Clear BGP on both nodes------######')
    utils.exec_all(True, [[arp_obj.clear_ndp_table, vars.D1],
                          [arp_obj.clear_ndp_table, vars.D2]])
    utils.exec_all(True,
                   [[arp_obj.show_ndp, vars.D1], [arp_obj.show_ndp, vars.D2]])
    utils.exec_all(True, [[bgp_obj.clear_ip_bgp_vtysh, vars.D1],
                          [bgp_obj.clear_ip_bgp_vtysh, vars.D2]])
    utils.exec_all(True,
                   [[arp_obj.show_ndp, vars.D1], [arp_obj.show_ndp, vars.D2]])
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D1,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D1D2P1,
                           state='Established'):
        st.log("Failed to form BGP unnumbered peering after clear NDP/BGP")
        result += 1
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D2,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D2D1P1,
                           state='Established'):
        st.log("Failed to form BGP unnumbered peering after clear NDP/BGP")
        result += 1
    utils.exec_all(True, [[ip_obj.config_ipv6, vars.D1, "disable"],
                          [ip_obj.config_ipv6, vars.D2, "disable"]])
    utils.exec_all(True, [[bgp_obj.clear_ip_bgp_vtysh, vars.D1],
                          [bgp_obj.clear_ip_bgp_vtysh, vars.D2]])
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D2,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D2D1P1,
                           state='Active'):
        st.log("BGP unnumbered peers established even after disable IPv6")
        result += 1
    utils.exec_all(True, [[ip_obj.config_ipv6, vars.D1, "enable"],
                          [ip_obj.config_ipv6, vars.D2, "enable"]])
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D2,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D2D1P1,
                           state='Established'):
        st.log("Failed to form BGP unnumbered peering after enable IPv6")
        result += 1
    if result == 0:
        st.report_pass("test_case_passed")
    else:
        st.log("BGP unnumbered neighborship failed after config state toggle")
        st.report_fail("test_case_failed")
Exemplo n.º 14
0
def report_result(status):
    if status:
        st.report_pass('test_case_passed')
    else:
        st.report_fail('test_case_failed')
Exemplo n.º 15
0
def test_ft_hw_watchdog():
    min_hw_watchdog_time = 180
    max_hw_watchdog_time = 370
    reboot_sleep = 60
    st.log("Verify whether feature is supported or not")
    platform_check()
    hw_watchdog_expiry = min_hw_watchdog_time + reboot_sleep
    st.log("Disabling the hw watchdog")
    if not box.hw_watchdog_config(vars.D1, mode='disable'):
        st.report_fail("hw_watchdog_disable_fail")
    st.log("Enabling the hw watchdog")
    if not box.hw_watchdog_config(vars.D1, mode='enable'):
        st.report_fail("hw_watchdog_enable_fail")
    st.log("Resetting the Hw watch daemon")
    if not box.hw_watchdog_config(vars.D1, mode='reset'):
        st.report_fail("hw_watchdog_reset_fail")
    st.log("Wait for watchdog timer to expire")
    st.wait(hw_watchdog_expiry)
    st.log("Getting status of hw watchdog")
    if not box.hw_watchdog_config(vars.D1, mode='status'):
        st.report_fail("hw_watchdog_status_fail")
    st.log("Get the hw watchdog reboot cause")
    if not reboot_obj.get_reboot_cause(vars.D1):
        st.report_fail("verify_hard_reboot_show_reboot_cause_fail")
    cause = reboot_obj.get_reboot_cause(vars.D1)
    cause = cause[0]['message']
    if not cause == 'Hardware Watchdog Reset':
        if data.version_data.lower() in data.hw_constants_DUT[
                'HW_WATCHDOG_REBOOT_CAUSE_SUPPORTED_PLATFORMS']:
            st.log("Reboot reason is invalid")
            st.report_tc_fail("ft_hw_watchdog_reset", 'test_case_id_failed')
        else:
            st.log(
                "Reboot reason is invalid because platform not have reboot cause support specific to Hw watchdog"
            )
    st.log("Getting timeout of hw watchdog")
    if not box.hw_watchdog_config(vars.D1, mode='timeout'):
        st.report_fail("hw_watchdog_timeout_fail")
    st.log("Verifying the running status of hw watchdog feature")
    if not box.hw_watchdog_config(vars.D1, mode='running_status'):
        st.report_fail("hw_watchdog_running_status")
    st.log("Generating kdump collections")
    if not box.hw_watchdog_config(vars.D1, mode='kdump'):
        st.report_fail("hw_watchdog_kdump_fail")
    if not reboot_obj.get_reboot_cause(vars.D1):
        st.report_fail("verify_hard_reboot_show_reboot_cause_fail")
    cause = reboot_obj.get_reboot_cause(vars.D1)
    cause = cause[0]['message']
    if not cause == 'Hardware Watchdog Reset':
        if data.version_data.lower() in data.hw_constants_DUT[
                'HW_WATCHDOG_REBOOT_CAUSE_SUPPORTED_PLATFORMS']:
            st.log("Reboot reason is invalid")
            st.report_tc_fail("ft_hw_watchdog_reset", 'test_case_id_failed')
        else:
            st.log(
                "Reboot reason is invalid because platform not have reboot cause support specific to Hw watchdog"
            )
    st.log("Changing the timeout value and verifying watchdog feature")
    value = random.randint(min_hw_watchdog_time, max_hw_watchdog_time)
    st.log("configurung the timeout value and verifying the functionality")
    if not box.hw_watchdog_timeout_config(vars.D1, timeout_value=value):
        st.report_fail("hw_watchdog_timeout_fail")
    sleep_time = value + reboot_sleep
    if not box.hw_watchdog_config(vars.D1, mode='reset'):
        st.report_fail("hw_watchdog_reset_fail")
    st.log("Wait for watchdog timer to expire")
    st.wait(sleep_time)
    if not reboot_obj.get_reboot_cause(vars.D1):
        st.report_fail("verify_hard_reboot_show_reboot_cause_fail")
    cause = reboot_obj.get_reboot_cause(vars.D1)
    cause = cause[0]['message']
    if not cause == 'Hardware Watchdog Reset':
        if data.version_data.lower() in data.hw_constants_DUT[
                'HW_WATCHDOG_REBOOT_CAUSE_SUPPORTED_PLATFORMS']:
            st.log("Reboot reason is invalid")
            st.report_tc_fail("ft_hw_watchdog_reset", 'test_case_id_failed')
        else:
            st.log(
                "Reboot reason is invalid because platform not have reboot cause support specific to Hw watchdog"
            )
    st.log("Changing back to default value")
    if not box.hw_watchdog_timeout_config(vars.D1,
                                          timeout_value=min_hw_watchdog_time):
        st.report_fail("hw_watchdog_timeout_fail")
    st.report_pass("test_case_passed")
Exemplo n.º 16
0
def test_ft_bgp_unnumbered_warmboot():
    # ################ Author Details ################
    # Name: Kiran Vedula
    # Email: [email protected]
    # ################################################
    utils_obj.banner_log('FtOtSoRtBgpUnFn009')
    utils.exec_all(True, [[bgp_obj.show_bgp_ipv6_summary_vtysh, vars.D1],
                          [bgp_obj.show_bgp_ipv6_summary_vtysh, vars.D2]])
    utils.exec_all(
        True,
        [[arp_obj.show_ndp, vars.D1, None], [arp_obj.show_ndp, vars.D2, None]])
    result = 0
    st.log('######------Warm reboot with BGP unnumbered------######')
    platform = basic_obj.get_hwsku(vars.D1)
    common_constants = st.get_datastore(vars.D1, "constants", "default")
    if not platform.lower(
    ) in common_constants['WARM_REBOOT_SUPPORTED_PLATFORMS']:
        st.error("Warm-Reboot is not supported for this platform {}".format(
            platform))
        st.report_unsupported('Warmboot_unsupported_platform', platform)
    reboot_obj.config_save(vars.D1, "sonic")
    reboot_obj.config_save(vars.D1, "vtysh")
    st.reboot(vars.D1, 'warm')
    st.wait(data.wait)
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D2,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D2D1P1,
                           state='Established'):
        st.log("Failed to form BGP unnumbered peering after warm reboot")
        result += 1
    st.wait(data.wait)
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D2,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=data.vlan_in_1,
                           state='Established'):
        st.log("Failed to form BGP unnumbered peering after warm reboot")
        result += 1
    st.wait(data.wait)
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D2,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=data.portchannel_name,
                           state='Established'):
        st.log("Failed to form BGP unnumbered peering after warm reboot")
        result += 1
    if result == 0:
        st.report_pass("test_case_passed")
    else:
        st.log("BGP unnumbered neighborship failed warm reboot")
        utils.exec_all(True, [[arp_obj.show_ndp, vars.D1, None],
                              [arp_obj.show_ndp, vars.D2, None]])
        utils.exec_all(True, [[bgp_obj.show_bgp_ipv6_neighbor_vtysh, vars.D1],
                              [bgp_obj.show_bgp_ipv6_neighbor_vtysh, vars.D2]])
        st.report_fail("test_case_failed")
Exemplo n.º 17
0
def test_l3_fwding():
    #pre_test_l3_fwding()
    data.my_dut_list = st.get_dut_names()

    dut1 = vars.D1
    ipfeature.get_interface_ip_address(dut1, family="ipv4")
    ipfeature.get_interface_ip_address(dut1, family="ipv6")
    ipfeature.show_ip_route(dut1)

    # L3 traffic streams
    (tg1, _, tg_ph_1, tg_ph_2) = get_handles()

    tg1.tg_traffic_control(action='reset', port_handle=[tg_ph_1, tg_ph_2])

    res = tg1.tg_interface_config(port_handle=tg_ph_1,
                                  mode='config',
                                  intf_ip_addr=data.t1d1_ip_addr,
                                  gateway=data.d1t1_ip_addr,
                                  src_mac_addr='00:0a:01:00:11:01',
                                  arp_send_req='1')
    st.log("INTFCONF: " + str(res))
    handle1 = res['handle']

    res = tg1.tg_interface_config(port_handle=tg_ph_2,
                                  mode='config',
                                  intf_ip_addr=data.t1d2_ip_addr,
                                  gateway=data.d2t1_ip_addr,
                                  src_mac_addr='00:0a:01:00:12:01',
                                  arp_send_req='1')
    st.log("INTFCONF: " + str(res))
    handle2 = res['handle']

    rv = tg1.tg_traffic_config(port_handle=tg_ph_1,
                               port_handle2=tg_ph_2,
                               mode='create',
                               transmit_mode='continuous',
                               length_mode='fixed',
                               l3_length=data.tgen_l3_len,
                               rate_pps=data.tgen_rate_pps,
                               emulation_src_handle=handle1,
                               emulation_dst_handle=handle2)
    tg_info['tg1_stream_id'] = rv['stream_id']
    rv_1 = tg1.tg_traffic_config(port_handle=tg_ph_2,
                                 port_handle2=tg_ph_1,
                                 mode='create',
                                 transmit_mode='continuous',
                                 length_mode='fixed',
                                 l3_length=data.tgen_l3_len,
                                 rate_pps=data.tgen_rate_pps,
                                 emulation_src_handle=handle2,
                                 emulation_dst_handle=handle1)
    tg_info['tg2_stream_id'] = rv_1['stream_id']

    tg1.tg_traffic_control(action='clear_stats',
                           port_handle=[tg_ph_1, tg_ph_2])
    papi.clear_interface_counters(dut1)

    tg1.tg_traffic_control(
        action='run',
        stream_handle=[tg_info['tg1_stream_id'], tg_info['tg2_stream_id']])
    st.wait(data.traffic_run_time)
    tg1.tg_traffic_control(
        action='stop',
        stream_handle=[tg_info['tg1_stream_id'], tg_info['tg2_stream_id']])

    traffic_details = {
        '1': {
            'tx_ports': [vars.T1D1P1],
            'tx_obj': [tg1],
            'exp_ratio': [1],
            'rx_ports': [vars.T1D2P1],
            'rx_obj': [tg1],
            'stream_list': [[tg_info['tg1_stream_id']]]
        },
        '2': {
            'tx_ports': [vars.T1D2P1],
            'tx_obj': [tg1],
            'exp_ratio': [1],
            'rx_ports': [vars.T1D1P1],
            'rx_obj': [tg1],
            'stream_list': [[tg_info['tg2_stream_id']]]
        }
    }
    if not tgapi.validate_tgen_traffic(traffic_details=traffic_details,
                                       mode='streamblock',
                                       comp_type='packet_count'):
        st.report_fail("failed_traffic_verification")

    # read interface counters
    rx_counters = intapi.get_interface_counters(dut1, vars.D1T1P1, "rx_ok")
    tx_counters = intapi.get_interface_counters(dut1, vars.D1D2P1, "tx_ok")

    # process interface counters
    p1_rcvd, p2_txmt = 0, 0
    for i in rx_counters:
        p1_rcvd = int(i['rx_ok'].replace(",", ""))
    for i in tx_counters:
        p2_txmt = int(i['tx_ok'].replace(",", ""))
    diff_count = abs(p1_rcvd - p2_txmt)
    st.log("ingress rx_ok = {} egress tx_ok = {} diff = {}".format(
        p1_rcvd, p2_txmt, diff_count))

    # verify interface counters
    if p1_rcvd == 0: st.report_fail("msg", "rx_ok is invalid")
    if p2_txmt == 0: st.report_fail("msg", "tx_ok is invalid")
    #if diff_count > data.counters_threshold: st.report_fail("msg", "unexpected counter values")

    # verify the ipv4 ping
    result = ipfeature.ping(dut1, data.d2t1_ip_addr)
    if not result: st.report_fail("msg", "IPv4 Ping Failed")

    # verify the ipv6 ping
    result = ipfeature.ping(dut1, data.d2t1_ip_addr_v6, 'ipv6')
    if not result: st.report_fail("msg", "IPv6 Ping Failed")

    st.report_pass("operation_successful")
Exemplo n.º 18
0
def test_ft_bgp_unnumbered_peer_basic():
    # ################ Author Details ################
    # Name: Kiran Vedula
    # Email: [email protected]
    # ################################################
    utils_obj.banner_log(
        'FtOtSoRtBgpUnFn001,FtOtSoRtBgpUnFn002,FtOtSoRtBgpUnFn018,FtOtSoRtBgpUnFn019'
    )
    st.log('######------Configure Unnumbered BGP peers------######')
    result = 0
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D1,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D1D2P1,
                           state='Established'):
        st.log("Failed to form BGP unnumbered peering using IPv6 link local")
        result += 1
    bgp_obj.config_bgp_neighbor_properties(vars.D1,
                                           data.d1_local_as,
                                           vars.D1D2P1,
                                           family="ipv6",
                                           neighbor_shutdown='',
                                           no_form='')
    if utils.poll_wait(bgp_obj.verify_bgp_summary,
                       data.wait,
                       vars.D1,
                       family='ipv6',
                       shell=bgp_cli_type,
                       neighbor=vars.D1D2P1,
                       state='Established'):
        st.log("unnumbered BGP peering is established even after shutdown")
        result += 1
    bgp_obj.config_bgp_neighbor_properties(vars.D1,
                                           data.d1_local_as,
                                           vars.D1D2P1,
                                           family="ipv6",
                                           neighbor_shutdown='',
                                           no_form='no')
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D1,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D1D2P1,
                           state='Established'):
        st.log(
            "Failed to form BGP unnumbered peering using IPv6 link local after no shutdown"
        )
        result += 1
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D1,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=data.vlan_in_1,
                           state='Established'):
        st.log(
            "Failed to form BGP unnumbered peering using IPv6 link local on a VLAN"
        )
        result += 1
    # Get show ndp output
    st.log('######------shut/no shut link with unnumbered BGP------######')
    utils.exec_all(
        True,
        [[arp_obj.show_ndp, vars.D1, None], [arp_obj.show_ndp, vars.D2, None]])
    intf_obj.interface_operation(vars.D1,
                                 vars.D1D2P1,
                                 operation="shutdown",
                                 skip_verify=True)
    st.wait(data.wait)
    intf_obj.interface_status_show(vars.D1, vars.D1D2P1)
    intf_obj.interface_operation(vars.D1,
                                 vars.D1D2P1,
                                 operation="startup",
                                 skip_verify=True)
    st.wait(data.wait)
    if not utils.poll_wait(bgp_obj.verify_bgp_summary,
                           data.wait_timer,
                           vars.D1,
                           family='ipv6',
                           shell=bgp_cli_type,
                           neighbor=vars.D1D2P1,
                           state='Established'):
        st.log("Failed to form BGP unnumbered peering using IPv6 link local")
        result += 1
    if result == 0:
        st.report_pass("test_case_passed")
    else:
        st.log("BGP IPv6 unnumbered neighborship failure")
        st.report_fail("test_case_failed")
Exemplo n.º 19
0
def test_ft_mclag_with_rpvst_stp_disable_enable_2_tier():
    if lib_stp.lib_stp_mclag_disable_enable_stp():
        st.report_pass('test_case_passed')
    else:
        st.report_fail('test_case_failed')
Exemplo n.º 20
0
def test_Ceta_31902(ceta_31902_fixture):
    success = True
    mac_obj.config_mac(dut=vars.D1,
                       mac=data.host1_mac,
                       vlan=data.host1_vlan,
                       intf=vars.D1T1P1)
    arp_obj.add_static_arp(dut=vars.D1,
                           ipaddress=data_tg_ip,
                           macaddress=data.host1_mac,
                           interface="Vlan" + data.host1_vlan)

    arp_obj.add_static_arp(dut=vars.D1,
                           ipaddress=data_tg_ip,
                           macaddress=data.host2_mac,
                           interface="Vlan" + data.host2_vlan)
    arp_obj.delete_static_arp(dut=vars.D1,
                              ipaddress=data_tg_ip,
                              interface="Vlan" + data.host2_vlan,
                              mac=data.host2_mac)

    arp_obj.add_static_arp(dut=vars.D1,
                           ipaddress=data_tg_ip,
                           macaddress=data.host2_mac,
                           interface="Vlan" + data.host1_vlan)
    arp_obj.delete_static_arp(dut=vars.D1,
                              ipaddress=data_tg_ip,
                              interface="Vlan" + data.host1_vlan,
                              mac=data.host2_mac)

    mac_obj.config_mac(dut=vars.D1,
                       mac=data.host2_mac,
                       vlan=data.host1_vlan,
                       intf=vars.D1T1P2)
    arp_obj.add_static_arp(dut=vars.D1,
                           ipaddress=data_tg_ip,
                           macaddress=data.host2_mac,
                           interface="Vlan" + data.host1_vlan)

    mac_obj.delete_mac(dut=vars.D1, mac=data.host1_mac, vlan=data.host1_vlan)
    mac_obj.config_mac(dut=vars.D1,
                       mac=data.host1_mac,
                       vlan=data.host1_vlan,
                       intf=vars.D1T1P1)
    l2_out = asicapi.get_l2_out(vars.D1, data.host2_mac)
    l3_out = asicapi.get_l3_out(vars.D1, data.host2_mac)
    if l2_out and l3_out:
        l2_gport = l2_out[0]["gport"][9]
        l3_port = l3_out[0]["port"]
        if l2_gport == l3_port:
            st.log("MAC {} points port {} correctly in both ARP and MAC table".
                   format(data.host2_mac, l2_gport))
        else:
            success = False
            st.error("MAC and ARP table are NOT in SYNC; "
                     "MAC {} points to gport {} in \"l2 show\""
                     "but in \"l3 egress show\" it is port {}".format(
                         data.host2_mac, l2_gport, l3_port))
    else:
        success = False
        st.error("MAC NOT present in \"l2 show\" or \"l3 egress show\" output")

    arp_obj.delete_static_arp(dut=vars.D1,
                              ipaddress=data_tg_ip,
                              interface="Vlan" + data.host1_vlan,
                              mac=data.host2_mac)
    mac_obj.delete_mac(dut=vars.D1, mac=data.host1_mac, vlan=data.host1_vlan)
    mac_obj.delete_mac(dut=vars.D1, mac=data.host2_mac, vlan=data.host1_vlan)

    if success:
        st.report_pass("test_case_id_passed", "test_Ceta_31902")
    else:
        st.report_fail("test_case_id_failed", "test_Ceta_31902")
Exemplo n.º 21
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def test_ft_mclag_with_rpvst_config_reload_2_tier():
    if lib_stp.lib_stp_mclag_config_reload():
        st.report_pass('test_case_passed')
    else:
        st.report_fail('test_case_failed')
Exemplo n.º 22
0
def test_ft_ping__v4_v6_after_ip_change_pc():
    # Objective - Verify that ping is successful between L3 interfaces when Ip address is removed and new ip
    # is assigned
    st.log("In {} check portchannel is UP or not".format(vars.D2))
    if not pc_obj.verify_portchannel_state(
            vars.D2, data.port_channel, state="up"):
        st.report_fail("portchannel_state_fail", data.port_channel, vars.D2,
                       "Up")
    st.log(
        "Checking IPv4 ping from {} to {} over portchannel routing interface".
        format(vars.D1, vars.D2))
    if not ipfeature.ping_poll(
            vars.D1, data.ip4_addr[5], family=data.af_ipv4, iter=5, count=1):
        st.report_fail("ping_fail", data.ip4_addr[4], data.ip4_addr[5])
    st.log(
        "Checking IPv6 ping from {} to {} over portchannel routing interface".
        format(vars.D1, vars.D2))
    if not ipfeature.ping_poll(
            vars.D2, data.ip6_addr[4], family=data.af_ipv6, iter=5, count=1):
        st.report_fail("ping_fail", data.ip6_addr[5], data.ip6_addr[4])
    st.log("Removing the Ipv4 address on portchannel")
    ipfeature.delete_ip_interface(vars.D1,
                                  data.port_channel,
                                  data.ip4_addr[4],
                                  24,
                                  family=data.af_ipv4)
    ipfeature.delete_ip_interface(vars.D2,
                                  data.port_channel,
                                  data.ip4_addr[5],
                                  24,
                                  family=data.af_ipv4)
    st.log("Removing the Ipv6 address on portchannel")
    ipfeature.delete_ip_interface(vars.D1,
                                  data.port_channel,
                                  data.ip6_addr[4],
                                  96,
                                  family=data.af_ipv6)
    ipfeature.delete_ip_interface(vars.D2,
                                  data.port_channel,
                                  data.ip6_addr[5],
                                  96,
                                  family=data.af_ipv6)
    st.log("configuring new Ipv4 address on portchannel")
    ipfeature.config_ip_addr_interface(vars.D1,
                                       data.port_channel,
                                       data.ip4_addr[10],
                                       24,
                                       family=data.af_ipv4)
    ipfeature.config_ip_addr_interface(vars.D2,
                                       data.port_channel,
                                       data.ip4_addr[11],
                                       24,
                                       family=data.af_ipv4)
    st.log("configuring new Ipv6 address on portchannel")
    ipfeature.config_ip_addr_interface(vars.D1,
                                       data.port_channel,
                                       data.ip6_addr[10],
                                       96,
                                       family=data.af_ipv6)
    ipfeature.config_ip_addr_interface(vars.D2,
                                       data.port_channel,
                                       data.ip6_addr[11],
                                       96,
                                       family=data.af_ipv6)
    st.log(
        "After Ipv4 address change, checking IPv4 ping from {} to {} over portchannel "
        "routing interface".format(vars.D1, vars.D2))
    if not ipfeature.ping_poll(
            vars.D1, data.ip4_addr[11], family=data.af_ipv4, iter=5, count=1):
        st.report_fail("ping_fail", data.ip4_addr[10], data.ip4_addr[11])
    st.log(
        "After Ipv6 address change, checking IPv6 ping from {} to {} over portchannel "
        "routing interface".format(vars.D1, vars.D2))
    if not ipfeature.ping_poll(
            vars.D1, data.ip6_addr[11], family=data.af_ipv6, iter=5, count=1):
        st.report_fail("ping_fail", data.ip6_addr[10], data.ip6_addr[11])
    st.report_pass("test_case_passed")
Exemplo n.º 23
0
def gnmi_call(dut, **kwargs):
    """
    Call to test gnmi session using diff users w.r.t RBAC.
    Author : Prudvi Mangadu ([email protected])
    :param dut:
    :param kwargs:
    :return:
    """
    st.log('Performing gnmi operations using - {}'.format(kwargs))

    for each in ['login_type', 'username', 'password', 'mode']:
        if not kwargs.get(each):
            st.error("Mandatory argument is not found - {}".format(each))
            return False

    dut_ip = "127.0.0.1"
    result = {'gnmi_get_out': True, 'gnmi_set_out': True}
    result2 = True
    username = kwargs.get('username')
    password = kwargs.get('password')
    cert = kwargs.get('cert')
    login_type = kwargs.get('login_type')
    mode = kwargs.get('mode')
    port = st.get_free_ports(dut)[0]
    if "/" in port:
        port = st.get_other_names(dut, [port])[0]
    xpath = '/openconfig-interfaces:interfaces/interface[name={}]/config/description'.format(port)
    json_content = {"openconfig-interfaces:description": "Eth"}

    if login_type == 'cred':
        gnmi_set_out = gnmi_set(dut, xpath, json_content=json_content, ip_address=dut_ip, username=username,
                                password=password)
        st.log(gnmi_set_out)
        gnmi_get_out = gnmi_get(dut, xpath, ip_address=dut_ip, username=username, password=password)
        st.log(gnmi_get_out)

    elif login_type == 'cert':
        gnmi_set_out = gnmi_set(dut, xpath, json_content=json_content, ip_address=dut_ip, cert=cert,
                                username=None, password=None, insecure='none', target_name='admin')
        st.log(gnmi_set_out)
        gnmi_get_out = gnmi_get(dut, xpath, ip_address=dut_ip, cert=cert, username=None, password=None, insecure='none',
                                target_name='admin')
        st.log(gnmi_get_out)

    else:
        st.error("Invalid 'login_type' used = {}".format(login_type))
        return False

    if mode == 'rw':
        if not (gnmi_set_out and gnmi_get_out):
            st.report_fail('rbac_call_fail', "gNMI", mode, login_type)
    else:
        if not (not gnmi_set_out and gnmi_get_out):
            st.report_fail('rbac_call_fail', "gNMI", mode, login_type)

    msg = 'Failed to execute set command using gNMI session with mode- {mode}, type- {login_type}'
    if mode == 'rw' and "op: UPDATE" not in str(gnmi_set_out) and "description" not in str(gnmi_get_out):
        st.error(msg.format(**kwargs))
        result2 = False
    if mode == 'ro' and not gnmi_set_out and "description" not in str(gnmi_get_out):
        st.error(msg.format(**kwargs))
        result2 = False

    if not result2:
        st.report_fail('rbac_test_status', 'Fail', mode, 'gNMI', login_type, result)
    st.report_pass('rbac_test_status', 'Pass', mode, 'gNMI', login_type, result)
Exemplo n.º 24
0
def test_ft_ip6_static_route_traffic_forward_blackhole():
    # Objective - Verify the Ipv6 traffic forwarding over static route.
    tg_handler = tgapi.get_handles_byname("T1D1P2", "T1D2P2")
    tg = tg_handler["tg"]
    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"])

    dut_rt_int_mac1 = basic_obj.get_ifconfig_ether(vars.D1, vars.D1T1P2)
    h1 = tg.tg_interface_config(port_handle=tg_handler["tg_ph_1"], mode='config', ipv6_intf_addr=data.ip6_addr[0], \
                                ipv6_prefix_length='64', ipv6_gateway=data.ip6_addr[1],
                                src_mac_addr=data.tg_mac1, arp_send_req='1')
    st.log("INTFCONF: " + str(h1))
    h2 = tg.tg_interface_config(port_handle=tg_handler["tg_ph_2"], mode='config', ipv6_intf_addr=data.ip6_addr[9], \
                                ipv6_prefix_length='64', ipv6_gateway=data.ip6_addr[8],
                                src_mac_addr=data.tg_mac2, arp_send_req='1')
    st.log("INTFCONF: " + str(h2))

    # Ping from tgen to DUT.
    res = tgapi.verify_ping(src_obj=tg, port_handle=tg_handler["tg_ph_1"], dev_handle=h1['handle'], dst_ip=data.ip6_addr[1], \
                      ping_count='1', exp_count='1')
    if res:
        st.log("Ping succeeded.")
    else:
        st.warn("Ping failed.")

    tr1 = tg.tg_traffic_config(port_handle=tg_handler["tg_ph_1"], mode='create', transmit_mode='single_burst',
                               pkts_per_burst=data.pkts_per_burst, \
                               length_mode='fixed', rate_pps=data.rate_pps, l3_protocol='ipv6', mac_src=data.tg_mac1, \
                               mac_dst=dut_rt_int_mac1, ipv6_src_addr=data.ip6_addr[0],
                               ipv6_dst_addr=data.ip6_addr[9])
    st.log("TRAFCONF: " + str(tr1))

    res = tg.tg_traffic_control(action='run', stream_handle=tr1['stream_id'])
    st.log("TR_CTRL: " + str(res))
    tg.tg_traffic_control(action='stop', stream_handle=tr1['stream_id'])
    st.log("Checking the stats and verifying the traffic flow")
    traffic_details = {
        '1': {
            'tx_ports': [vars.T1D1P2],
            'tx_obj': [tg_handler["tg"]],
            'exp_ratio': [1],
            'rx_ports': [vars.T1D2P2],
            'rx_obj': [tg_handler["tg"]],
        }
    }
    # verify statistics
    aggrResult = tgapi.validate_tgen_traffic(traffic_details=traffic_details,
                                             mode='aggregate',
                                             comp_type='packet_count')
    if not aggrResult:
        st.report_fail("traffic_verification_failed")
    ipfeature.delete_static_route(vars.D1,
                                  data.ip6_addr[7],
                                  data.static_ip6_rt,
                                  shell=data.shell_vtysh,
                                  family=data.af_ipv6)
    st.log("Create a static route with nexthop as blackhole")
    ipfeature.create_static_route(vars.D1,
                                  data.static_ip6_rt_drop,
                                  data.static_ip6_rt,
                                  shell=data.shell_vtysh,
                                  family=data.af_ipv6)
    tg.tg_traffic_control(action="clear_stats",
                          port_handle=tg_handler["tg_ph_list"])

    res = tg.tg_traffic_control(action='run', stream_handle=tr1['stream_id'])
    st.log("TR_CTRL: " + str(res))
    tg.tg_traffic_control(action='stop', stream_handle=tr1['stream_id'])
    st.log("Checking the stats and verifying the traffic flow")
    traffic_details = {
        '1': {
            'tx_ports': [vars.T1D1P2],
            'tx_obj': [tg_handler["tg"]],
            'exp_ratio': [1],
            'rx_ports': [vars.T1D2P2],
            'rx_obj': [tg_handler["tg"]],
        }
    }

    # verify statistics
    aggrResult = tgapi.validate_tgen_traffic(traffic_details=traffic_details,
                                             mode='aggregate',
                                             comp_type='packet_count')
    if aggrResult:
        st.report_fail("traffic_verification_failed")
    st.report_pass("test_case_passed")
Exemplo n.º 25
0
def test_l3_perf_tc_11_4():
    measure_v4_route_scale_time(90000, True)
    st.report_pass("test_case_passed")
Exemplo n.º 26
0
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=data.rate_pps,
                               mac_src_mode="fixed",
                               transmit_mode="single_burst",
                               pkts_per_burst=data.pkts_per_burst,
                               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")
Exemplo n.º 27
0
def test_l3_perf_tc_11_7():
    measure_v6_route_learning_time(60000)
    st.report_pass("test_case_passed")
Exemplo n.º 28
0
def test_ft_verify_interfaces_order():
    '''
    @author: Ramprakash Reddy ([email protected])
    ipv4_intf_order :  Verify order of interfaces in "show ip interfaces"
    ipv6_intf_order :  Verify order of interfaces in "show ipv6 interfaces'
    Verify order of interfaces in "show ip/ipv6 interfaces" in sorted order or not

    :return:
    '''
    flag = 1
    st.log(
        "This test is to ensure that interfaces are listed in sorted order by 'interface name' in 'show ip/ipv6 "
        "interfaces'")
    free_ports = st.get_free_ports(vars.D1)
    if len(free_ports) < data.no_of_ports:
        data.no_of_ports = len(free_ports)
    req_ports = random.sample(free_ports, data.no_of_ports)
    ipv4_addr = data.ip4_addr[11] + '/' + data.ipv4_mask
    ipv6_addr = data.ip6_addr[0] + '/' + data.ipv6_mask
    intf_list = []
    for i in range(int(math.ceil(float(data.no_of_ports) / 2))):
        _, ipv4_addr = ipfeature.increment_ip_addr(ipv4_addr, "network")
        ipfeature.config_ip_addr_interface(vars.D1,
                                           interface_name=req_ports[i],
                                           ip_address=ipv4_addr.split('/')[0],
                                           subnet=data.ipv4_mask,
                                           family="ipv4")
    for i in range(int(math.floor(float(data.no_of_ports) / 2))):
        _, ipv6_addr = ipfeature.increment_ip_addr(ipv6_addr,
                                                   "network",
                                                   family="ipv6")
        ipfeature.config_ip_addr_interface(
            vars.D1,
            interface_name=req_ports[
                i + int(math.ceil(float(data.no_of_ports) / 2))],
            ip_address=ipv6_addr.split('/')[0],
            subnet=data.ipv6_mask,
            family="ipv6")
    output = ipfeature.get_interface_ip_address(vars.D1)
    for each in output:
        intf_list.append(each['interface'])
    temp = lambda text: int(text) if text.isdigit() else text
    alphanum_key = lambda key: [temp(c) for c in re.split('([0-9]+)', key)]
    intf_list_sorted = sorted(intf_list, key=alphanum_key)
    if intf_list == intf_list_sorted:
        st.log("Ipv4 interfaces are in sorted order")
    else:
        st.error("Ipv4 interfaces are not in soretd order")
        flag = 0
    del intf_list[:]
    del intf_list_sorted[:]
    output = ipfeature.get_interface_ip_address(vars.D1, family="ipv6")
    for each in output:
        intf_list.append(each['interface'])
    temp = lambda text: int(text) if text.isdigit() else text
    alphanum_key = lambda key: [temp(c) for c in re.split('([0-9]+)', key)]
    intf_list_sorted = sorted(intf_list, key=alphanum_key)
    if intf_list == intf_list_sorted:
        st.log("Ipv6 interfaces are in sorted order")
    else:
        st.error("Ipv6 interfaces are not in soretd order")
        flag = 0
    #Unconfig
    ipv4_addr = data.ip4_addr[11] + '/' + data.ipv4_mask
    ipv6_addr = data.ip6_addr[0] + '/' + data.ipv6_mask
    for i in range(int(math.ceil(float(data.no_of_ports) / 2))):
        _, ipv4_addr = ipfeature.increment_ip_addr(ipv4_addr, "network")
        ipfeature.delete_ip_interface(vars.D1,
                                      interface_name=req_ports[i],
                                      ip_address=ipv4_addr.split('/')[0],
                                      subnet=data.ipv4_mask,
                                      family="ipv4")
    for i in range(int(math.floor(float(data.no_of_ports) / 2))):
        _, ipv6_addr = ipfeature.increment_ip_addr(ipv6_addr,
                                                   "network",
                                                   family="ipv6")
        ipfeature.delete_ip_interface(
            vars.D1,
            interface_name=req_ports[
                i + int(math.ceil(float(data.no_of_ports) / 2))],
            ip_address=ipv6_addr.split('/')[0],
            subnet=data.ipv6_mask,
            family="ipv6")
    if flag == 0:
        st.report_fail("test_case_failed")
    st.report_pass("test_case_passed")
Exemplo n.º 29
0
def test_l3_intf_scaling_tc_6_5():
    if data.tc6_xresult[4]:
        st.report_pass("test_case_passed")
    else:
        st.report_fail("test_case_failed")
def test_ft_ztp_config_check_with_option_59_v6_inband(ztp_func_hooks):
    # ################ Author Details ################
    # Name: Chaitanya Vella
    # Email: [email protected]
    # ################################################
    # ############## Test bed details ################
    #  D1 ---- DHCP Server

    #  ft_ztp_config_section_check_with_option_67_with_inband	:
    #  Verify that SONiC ZTP is successful through in-band ports using ZTP
    #  URL provided in DHCP option 59 received over IPv6 network.
    # #################################################
    vars = st.ensure_min_topology("D1")
    config_params.home_path = dhcp6_home_path
    config_params.static_ip = dhcp6_static_ip
    config_params.dhcp_config_file = dhcp6_config_file
    config_params.ztp_operation = "run"
    config_params.result = ""
    config_params.dut = vars.D1
    config_params.dut_ztp_cfg_file = "{}/{}".format(ztp_params.dut_path, ztp_params.ztp_cfg_file_name)
    config_params.network_port = dhcp6_port
    config_params.json_content = {
        "ztp": {
            "02-configdb-json": {"url": {"source": "file://{}".format(config_params.config_db_temp),
                                 "timeout": 300}, "clear-config": "False","save-config": "True"},
            "01-provisioning-script": {
                "plugin": {
                    "url": "http://[{}]{}/{}".format(config_params.static_ip,
                                                                         ztp_params.provision_script_path,
                                                     config_params.option_239_sh_file)
                }
            },
            "06-snmp": {
                "communities-ro": ["sonic", "buzznik"],
                "snmp-location": "Hyderabad",
                "snmp-syscontact": "admin",
                "ignore-result": "true",
                "restart-agent": True
            }
        }
    }
    source_path = "{}{}".format(config_params.local_provision_scripts_folder, config_params.option_239_sh_file)
    destination_path = "{}{}/{}".format(ztp_params.home_path, ztp_params.provision_script_path, config_params.option_239_sh_file)
    basic_obj.copy_file_from_client_to_server(ssh_conn_obj, src_path=source_path, dst_path=destination_path,
                                              persist=True)
    # options={"reboot_on_success": "01-configdb-json"}
    ztp_obj.config_dhcpv6_options(ssh_conn_obj, ztp_params, config_params)
    ztp_status = ztp_obj.show_ztp_status(vars.D1)
    if "dhcp6-opt59" not in ztp_status["source"] or dhcp6_port not in ztp_status["source"]:
        st.log("ZTP source verification failed with {} against dhcp6-opt59 or port {}".format(ztp_status["source"], dhcp6_port))
        st.report_fail("ztp_source_verification_failed", "dhcp6-opt59", ztp_status["source"])
    snmp_params = {"rocommunityv6": "sonic", "rocommunity": "sonic"}
    if not verify_snmp_details_using_docker(vars.D1, **snmp_params):
        st.report_fail("snmp_params_verification_failed")
    snmp_params = {"rocommunityv6": "buzznik", "rocommunity": "buzznik"}
    if not verify_snmp_details_using_docker(vars.D1, **snmp_params):
        st.report_fail("snmp_params_verification_failed")
    snmp_params = {"syslocation": "Hyderabad"}
    if not verify_snmp_details_using_docker(vars.D1, **snmp_params):
        st.report_fail("snmp_params_verification_failed")
    snmp_params = {"syscontact": "admin"}
    if not verify_snmp_details_using_docker(vars.D1, **snmp_params):
        st.report_fail("snmp_params_verification_failed")
    st.report_pass("test_case_passed")