# See the License for the specific language governing permissions and
# limitations under the License.
-"""Interface util library"""
+"""Interface util library."""
from time import time, sleep
from robot.api import logger
-from resources.libraries.python.ssh import SSH
-from resources.libraries.python.IPUtil import convert_ipv4_netmask_prefix
+from resources.libraries.python.CpuUtils import CpuUtils
from resources.libraries.python.DUTSetup import DUTSetup
-from resources.libraries.python.ssh import exec_cmd_no_error
+from resources.libraries.python.IPUtil import convert_ipv4_netmask_prefix
+from resources.libraries.python.IPUtil import IPUtil
+from resources.libraries.python.parsers.JsonParser import JsonParser
+from resources.libraries.python.ssh import SSH, exec_cmd_no_error
from resources.libraries.python.topology import NodeType, Topology
from resources.libraries.python.VatExecutor import VatExecutor, VatTerminal
from resources.libraries.python.VatJsonUtil import VatJsonUtil
-from resources.libraries.python.parsers.JsonParser import JsonParser
+from resources.libraries.python.VPPUtil import VPPUtil
class InterfaceUtil(object):
if node['type'] == NodeType.DUT:
if state == 'up':
- state = 'admin-up'
+ state = 'admin-up link-up'
elif state == 'down':
- state = 'admin-down'
+ state = 'admin-down link-down'
else:
raise ValueError('Unexpected interface state: {}'.format(state))
VatExecutor.cmd_from_template(node, 'set_if_state.vat',
InterfaceUtil.set_interface_ethernet_mtu(node, ifc, 1500)
@staticmethod
- def vpp_node_interfaces_ready_wait(node, timeout=10):
+ def vpp_set_interface_mtu(node, interface, mtu=9200):
+ """Set Ethernet MTU on interface.
+
+ :param node: VPP node.
+ :param interface: Interface to setup MTU. Default: 9200.
+ :param mtu: Ethernet MTU size in Bytes.
+ :type node: dict
+ :type interface: str or int
+ :type mtu: int
+ """
+ if isinstance(interface, basestring):
+ sw_if_index = Topology.get_interface_sw_index(node, interface)
+ else:
+ sw_if_index = interface
+
+ if sw_if_index:
+ with VatTerminal(node, json_param=False) as vat:
+ vat.vat_terminal_exec_cmd_from_template(
+ "hw_interface_set_mtu.vat", sw_if_index=sw_if_index,
+ mtu=mtu)
+
+ @staticmethod
+ def vpp_set_interfaces_mtu_on_node(node, mtu=9200):
+ """Set Ethernet MTU on all interfaces.
+
+ :param node: VPP node.
+ :param mtu: Ethernet MTU size in Bytes. Default: 9200.
+ :type node: dict
+ :type mtu: int
+ """
+ for interface in node['interfaces']:
+ InterfaceUtil.vpp_set_interface_mtu(node, interface, mtu)
+
+ @staticmethod
+ def vpp_set_interfaces_mtu_on_all_duts(nodes, mtu=9200):
+ """Set Ethernet MTU on all interfaces on all DUTs.
+
+ :param nodes: VPP nodes.
+ :param mtu: Ethernet MTU size in Bytes. Default: 9200.
+ :type nodes: dict
+ :type mtu: int
+ """
+ for node in nodes.values():
+ if node['type'] == NodeType.DUT:
+ InterfaceUtil.vpp_set_interfaces_mtu_on_node(node, mtu)
+
+ @staticmethod
+ def vpp_node_interfaces_ready_wait(node, timeout=30):
"""Wait until all interfaces with admin-up are in link-up state.
:param node: Node to wait on.
sleep(1)
@staticmethod
- def vpp_nodes_interfaces_ready_wait(nodes, timeout=10):
+ def vpp_nodes_interfaces_ready_wait(nodes, timeout=30):
"""Wait until all interfaces with admin-up are in link-up state for
listed nodes.
InterfaceUtil.vpp_node_interfaces_ready_wait(node, timeout)
@staticmethod
- def all_vpp_interfaces_ready_wait(nodes, timeout=10):
+ def all_vpp_interfaces_ready_wait(nodes, timeout=30):
"""Wait until all interfaces with admin-up are in link-up state for all
nodes in the topology.
InterfaceUtil.update_nic_interface_names(node)
@staticmethod
- def update_tg_interface_data_on_node(node):
+ def update_tg_interface_data_on_node(node, skip_tg_udev=False):
"""Update interface name for TG/linux node in DICT__nodes.
.. note::
"52:54:00:e1:8a:0f": "eth2"
"00:00:00:00:00:00": "lo"
- .. note:: TODO: parse lshw -json instead
-
:param node: Node selected from DICT__nodes.
+ :param skip_tg_udev: Skip udev rename on TG node.
:type node: dict
+ :type skip_tg_udev: bool
:raises RuntimeError: If getting of interface name and MAC fails.
"""
# First setup interface driver specified in yaml file
interface['name'] = name
# Set udev rules for interfaces
- InterfaceUtil.tg_set_interfaces_udev_rules(node)
+ if not skip_tg_udev:
+ InterfaceUtil.tg_set_interfaces_udev_rules(node)
@staticmethod
def iface_update_numa_node(node):
try:
numa_node = int(out)
if numa_node < 0:
- raise ValueError
+ if CpuUtils.cpu_node_count(node) == 1:
+ numa_node = 0
+ else:
+ raise ValueError
except ValueError:
- logger.trace('Reading numa location failed for: {0}'\
- .format(if_pci))
+ logger.trace('Reading numa location failed for: {0}'
+ .format(if_pci))
else:
Topology.set_interface_numa_node(node, if_key,
numa_node)
break
else:
- raise RuntimeError('Update numa node failed for: {0}'\
- .format(if_pci))
+ raise RuntimeError('Update numa node failed for: {0}'
+ .format(if_pci))
@staticmethod
def update_all_numa_nodes(nodes, skip_tg=False):
@staticmethod
def update_all_interface_data_on_all_nodes(nodes, skip_tg=False,
+ skip_tg_udev=False,
numa_node=False):
"""Update interface names on all nodes in DICT__nodes.
of all nodes mentioned in the topology dictionary.
:param nodes: Nodes in the topology.
- :param skip_tg: Skip TG node
+ :param skip_tg: Skip TG node.
+ :param skip_tg_udev: Skip udev rename on TG node.
:param numa_node: Retrieve numa_node location.
:type nodes: dict
:type skip_tg: bool
+ :type skip_tg_udev: bool
:type numa_node: bool
"""
for node_data in nodes.values():
if node_data['type'] == NodeType.DUT:
InterfaceUtil.update_vpp_interface_data_on_node(node_data)
elif node_data['type'] == NodeType.TG and not skip_tg:
- InterfaceUtil.update_tg_interface_data_on_node(node_data)
+ InterfaceUtil.update_tg_interface_data_on_node(
+ node_data, skip_tg_udev)
if numa_node:
if node_data['type'] == NodeType.DUT:
sw_if_index=sw_if_index,
vlan=vlan)
if output[0]["retval"] == 0:
- sw_subif_idx = output[0]["sw_if_index"]
+ sw_vlan_idx = output[0]["sw_if_index"]
logger.trace('VLAN subinterface with sw_if_index {} and VLAN ID {} '
- 'created on node {}'.format(sw_subif_idx,
+ 'created on node {}'.format(sw_vlan_idx,
vlan, node['host']))
if_key = Topology.add_new_port(node, "vlan_subif")
- Topology.update_interface_sw_if_index(node, if_key, sw_subif_idx)
- ifc_name = InterfaceUtil.vpp_get_interface_name(node, sw_subif_idx)
+ Topology.update_interface_sw_if_index(node, if_key, sw_vlan_idx)
+ ifc_name = InterfaceUtil.vpp_get_interface_name(node, sw_vlan_idx)
Topology.update_interface_name(node, if_key, ifc_name)
else:
raise RuntimeError('Unable to create VLAN subinterface on node {}'
with VatTerminal(node, False) as vat:
vat.vat_terminal_exec_cmd('exec show interfaces')
- return '{}.{}'.format(interface, vlan), sw_subif_idx
+ return '{}.{}'.format(interface, vlan), sw_vlan_idx
@staticmethod
def create_vxlan_interface(node, vni, source_ip, destination_ip):
"tap_dump.vat")
if name is None:
return response[0]
- else:
- for item in response[0]:
- if name == item['dev_name']:
- return item
- return {}
+ for item in response[0]:
+ if name == item['dev_name']:
+ return item
+ return {}
@staticmethod
def create_subinterface(node, interface, sub_id, outer_vlan_id=None,
type_subif=type_subif)
if output[0]["retval"] == 0:
- sw_subif_idx = output[0]["sw_if_index"]
+ sw_vlan_idx = output[0]["sw_if_index"]
logger.trace('Created subinterface with index {}'
- .format(sw_subif_idx))
+ .format(sw_vlan_idx))
if_key = Topology.add_new_port(node, "subinterface")
- Topology.update_interface_sw_if_index(node, if_key, sw_subif_idx)
- ifc_name = InterfaceUtil.vpp_get_interface_name(node, sw_subif_idx)
+ Topology.update_interface_sw_if_index(node, if_key, sw_vlan_idx)
+ ifc_name = InterfaceUtil.vpp_get_interface_name(node, sw_vlan_idx)
Topology.update_interface_name(node, if_key, ifc_name)
else:
raise RuntimeError('Unable to create sub-interface on node {}'
vat.vat_terminal_exec_cmd('exec show interfaces')
name = '{}.{}'.format(interface, sub_id)
- return name, sw_subif_idx
+ return name, sw_vlan_idx
@staticmethod
def create_gre_tunnel_interface(node, source_ip, destination_ip):
the node.
"""
hw_addr = '' if mac is None else 'hw-addr {mac}'.format(mac=mac)
- lb = '' if load_balance is None \
- else 'lb {lb}'.format(lb=load_balance)
+ ldb = '' if load_balance is None \
+ else 'lb {ldb}'.format(ldb=load_balance)
output = VatExecutor.cmd_from_template(
- node, 'create_bond_interface.vat', mode=mode, lb=lb, mac=hw_addr)
+ node, 'create_bond_interface.vat', mode=mode, lb=ldb, mac=hw_addr)
if output[0].get('retval') == 0:
sw_if_idx = output[0].get('sw_if_index')
- InterfaceUtil.add_bond_eth_interface(node, sw_if_idx=sw_if_idx)
+ InterfaceUtil.add_eth_interface(node, sw_if_idx=sw_if_idx,
+ ifc_pfx='eth_bond')
if_key = Topology.get_interface_by_sw_index(node, sw_if_idx)
return if_key
else:
- raise RuntimeError('Create bond interface failed on node "{n}"'
- .format(n=node['host']))
+ raise RuntimeError('Create bond interface failed on "{host}"'.
+ format(host=node['host']))
@staticmethod
- def add_bond_eth_interface(node, ifc_name=None, sw_if_idx=None):
- """Add BondEthernet interface to current topology.
+ def add_eth_interface(node, ifc_name=None, sw_if_idx=None, ifc_pfx=None):
+ """Add ethernet interface to current topology.
:param node: DUT node from topology.
- :param ifc_name: Name of the BondEthernet interface.
+ :param ifc_name: Name of the interface.
:param sw_if_idx: SW interface index.
+ :param ifc_pfx: Interface key prefix.
:type node: dict
:type ifc_name: str
:type sw_if_idx: int
+ :type ifc_pfx: str
"""
- if_key = Topology.add_new_port(node, 'eth_bond')
+ if_key = Topology.add_new_port(node, ifc_pfx)
vat_executor = VatExecutor()
vat_executor.execute_script_json_out("dump_interfaces.vat", node)
interface_dump_json, sw_if_idx)
Topology.update_interface_mac_address(node, if_key, ifc_mac)
+ @staticmethod
+ def vpp_create_avf_interface(node, vf_pci_addr):
+ """Create AVF interface on VPP node.
+
+ :param node: DUT node from topology.
+ :param vf_pci_addr: Virtual Function PCI address.
+ :type node: dict
+ :type vf_pci_addr: str
+ :returns: Interface key (name) in topology.
+ :rtype: str
+ :raises RuntimeError: If it is not possible to create AVF interface on
+ the node.
+ """
+ with VatTerminal(node, json_param=False) as vat:
+ vat.vat_terminal_exec_cmd_from_template('create_avf_interface.vat',
+ vf_pci_addr=vf_pci_addr)
+ output = vat.vat_stdout
+
+ if output is not None:
+ sw_if_idx = int(output.split()[4])
+ InterfaceUtil.add_eth_interface(node, sw_if_idx=sw_if_idx,
+ ifc_pfx='eth_avf')
+ if_key = Topology.get_interface_by_sw_index(node, sw_if_idx)
+ return if_key
+ else:
+ raise RuntimeError('Create AVF interface failed on {host}'.
+ format(host=node['host']))
+
@staticmethod
def vpp_enslave_physical_interface(node, interface, bond_interface):
"""Enslave physical interface to bond interface on VPP node.
.format(node))
@staticmethod
- def set_linux_interface_mac(node, interface, mac, namespace=None):
+ def set_linux_interface_mac(node, interface, mac, namespace=None,
+ vf_id=None):
"""Set MAC address for interface in linux.
:param node: Node where to execute command.
:param interface: Interface in namespace.
:param mac: MAC to be assigned to interface.
:param namespace: Execute command in namespace. Optional
+ :param vf_id: Virtual Function id. Optional
:type node: dict
:type interface: str
:type mac: str
:type namespace: str
+ :type vf_id: int
"""
- if namespace is not None:
- cmd = 'ip netns exec {} ip link set {} address {}'.format(
- namespace, interface, mac)
- else:
- cmd = 'ip link set {} address {}'.format(interface, mac)
+ mac_str = 'vf {vf_id} mac {mac}'.format(vf_id=vf_id, mac=mac) \
+ if vf_id is not None else 'address {mac}'.format(mac=mac)
+ ns_str = 'ip netns exec {ns}'.format(ns=namespace) if namespace else ''
+
+ cmd = ('{ns} ip link set {interface} {mac}'.
+ format(ns=ns_str, interface=interface, mac=mac_str))
+ exec_cmd_no_error(node, cmd, sudo=True)
+
+ @staticmethod
+ def set_linux_interface_trust_on(node, interface, namespace=None,
+ vf_id=None):
+ """Set trust on (promisc) for interface in linux.
+
+ :param node: Node where to execute command.
+ :param interface: Interface in namespace.
+ :param namespace: Execute command in namespace. Optional
+ :param vf_id: Virtual Function id. Optional
+ :type node: dict
+ :type interface: str
+ :type namespace: str
+ :type vf_id: int
+ """
+ trust_str = 'vf {vf_id} trust on'.format(vf_id=vf_id) \
+ if vf_id is not None else 'trust on'
+ ns_str = 'ip netns exec {ns}'.format(ns=namespace) if namespace else ''
+
+ cmd = ('{ns} ip link set dev {interface} {trust}'.
+ format(ns=ns_str, interface=interface, trust=trust_str))
exec_cmd_no_error(node, cmd, sudo=True)
+
+ @staticmethod
+ def set_linux_interface_spoof_off(node, interface, namespace=None,
+ vf_id=None):
+ """Set spoof off for interface in linux.
+
+ :param node: Node where to execute command.
+ :param interface: Interface in namespace.
+ :param namespace: Execute command in namespace. Optional
+ :param vf_id: Virtual Function id. Optional
+ :type node: dict
+ :type interface: str
+ :type namespace: str
+ :type vf_id: int
+ """
+ spoof_str = 'vf {vf_id} spoof off'.format(vf_id=vf_id) \
+ if vf_id is not None else 'spoof off'
+ ns_str = 'ip netns exec {ns}'.format(ns=namespace) if namespace else ''
+
+ cmd = ('{ns} ip link set dev {interface} {spoof}'.
+ format(ns=ns_str, interface=interface, spoof=spoof_str))
+ exec_cmd_no_error(node, cmd, sudo=True)
+
+ @staticmethod
+ def init_avf_interface(node, ifc_key, numvfs=1, topology_type='L2'):
+ """Init PCI device by creating VFs and bind them to vfio-pci for AVF
+ driver testing on DUT.
+
+ :param node: DUT node.
+ :param ifc_key: Interface key from topology file.
+ :param numvfs: Number of VFs to initialize, 0 - disable the VFs.
+ :param topology_type: Topology type.
+ :type node: dict
+ :type ifc_key: str
+ :type numvfs: int
+ :type topology_type: str
+ :returns: Virtual Function topology interface keys.
+ :rtype: list
+ """
+ ssh = SSH()
+ ssh.connect(node)
+
+ # Read PCI address and driver.
+ pf_pci_addr = Topology.get_interface_pci_addr(node, ifc_key)
+ pf_mac_addr = Topology.get_interface_mac(node, ifc_key).split(":")
+ uio_driver = Topology.get_uio_driver(node)
+ kernel_driver = Topology.get_interface_driver(node, ifc_key)
+ current_driver = DUTSetup.get_pci_dev_driver(
+ node, pf_pci_addr.replace(':', r'\:'))
+
+ VPPUtil.stop_vpp_service(node)
+ if current_driver != kernel_driver:
+ # PCI device must be re-bound to kernel driver before creating VFs.
+ DUTSetup.verify_kernel_module(node, kernel_driver, force_load=True)
+ # Stop VPP to prevent deadlock.
+ # Unbind from current driver.
+ DUTSetup.pci_driver_unbind(node, pf_pci_addr)
+ # Bind to kernel driver.
+ DUTSetup.pci_driver_bind(node, pf_pci_addr, kernel_driver)
+
+ # Initialize PCI VFs
+ DUTSetup.set_sriov_numvfs(node, pf_pci_addr, numvfs)
+
+ vf_ifc_keys = []
+ # Set MAC address and bind each virtual function to uio driver.
+ for vf_id in range(numvfs):
+ vf_mac_addr = ":".join([pf_mac_addr[0], pf_mac_addr[2],
+ pf_mac_addr[3], pf_mac_addr[4],
+ pf_mac_addr[5], "{:02x}".format(vf_id)])
+
+ pf_dev = '`basename /sys/bus/pci/devices/{pci}/net/*`'.\
+ format(pci=pf_pci_addr)
+ InterfaceUtil.set_linux_interface_trust_on(node, pf_dev,
+ vf_id=vf_id)
+ if topology_type == 'L2':
+ InterfaceUtil.set_linux_interface_spoof_off(node, pf_dev,
+ vf_id=vf_id)
+ InterfaceUtil.set_linux_interface_mac(node, pf_dev, vf_mac_addr,
+ vf_id=vf_id)
+
+ DUTSetup.pci_vf_driver_unbind(node, pf_pci_addr, vf_id)
+ DUTSetup.pci_vf_driver_bind(node, pf_pci_addr, vf_id, uio_driver)
+
+ # Add newly created ports into topology file
+ vf_ifc_name = '{pf_if_key}_vf'.format(pf_if_key=ifc_key)
+ vf_pci_addr = DUTSetup.get_virtfn_pci_addr(node, pf_pci_addr, vf_id)
+ vf_ifc_key = Topology.add_new_port(node, vf_ifc_name)
+ Topology.update_interface_name(node, vf_ifc_key,
+ vf_ifc_name+str(vf_id+1))
+ Topology.update_interface_mac_address(node, vf_ifc_key, vf_mac_addr)
+ Topology.update_interface_pci_address(node, vf_ifc_key, vf_pci_addr)
+ vf_ifc_keys.append(vf_ifc_key)
+
+ return vf_ifc_keys
+
+ @staticmethod
+ def vpp_create_multiple_vxlan_ipv4_tunnels(
+ node, node_vxlan_if, node_vlan_if, op_node, op_node_if,
+ n_tunnels, vni_start, src_ip_start, dst_ip_start, ip_step, ip_limit,
+ bd_id_start):
+ """Create multiple VXLAN tunnel interfaces and VLAN sub-interfaces on
+ VPP node.
+
+ Put each pair of VXLAN tunnel interface and VLAN sub-interface to
+ separate bridge-domain.
+
+ :param node: VPP node to create VXLAN tunnel interfaces.
+ :param node_vxlan_if: VPP node interface key to create VXLAN tunnel
+ interfaces.
+ :param node_vlan_if: VPP node interface key to create VLAN
+ sub-interface.
+ :param op_node: Opposite VPP node for VXLAN tunnel interfaces.
+ :param op_node_if: Opposite VPP node interface key for VXLAN tunnel
+ interfaces.
+ :param n_tunnels: Number of tunnel interfaces to create.
+ :param vni_start: VNI start ID.
+ :param src_ip_start: VXLAN tunnel source IP address start.
+ :param dst_ip_start: VXLAN tunnel destination IP address start.
+ :param ip_step: IP address incremental step.
+ :param ip_limit: IP address limit.
+ :param bd_id_start: Bridge-domain ID start.
+ :type node: dict
+ :type node_vxlan_if: str
+ :type node_vlan_if: str
+ :type op_node: dict
+ :type op_node_if: str
+ :type n_tunnels: int
+ :type vni_start: int
+ :type src_ip_start: str
+ :type dst_ip_start: str
+ :type ip_step: int
+ :type ip_limit: str
+ :type bd_id_start: int
+ """
+ # configure IPs, create VXLAN interfaces and VLAN sub-interfaces
+ vxlan_count = InterfaceUtil.vpp_create_vxlan_and_vlan_interfaces(
+ node, node_vxlan_if, node_vlan_if, n_tunnels, vni_start,
+ src_ip_start, dst_ip_start, ip_step, ip_limit)
+
+ # update topology with VXLAN interfaces and VLAN sub-interfaces data
+ # and put interfaces up
+ InterfaceUtil.vpp_put_vxlan_and_vlan_interfaces_up(
+ node, vxlan_count, node_vlan_if)
+
+ # configure bridge domains, ARPs and routes
+ InterfaceUtil.vpp_put_vxlan_and_vlan_interfaces_to_bridge_domain(
+ node, node_vxlan_if, vxlan_count, op_node, op_node_if, dst_ip_start,
+ ip_step, bd_id_start)
+
+ @staticmethod
+ def vpp_create_vxlan_and_vlan_interfaces(
+ node, node_vxlan_if, node_vlan_if, vxlan_count, vni_start,
+ src_ip_start, dst_ip_start, ip_step, ip_limit):
+ """
+ Configure IPs, create VXLAN interfaces and VLAN sub-interfaces on VPP
+ node.
+
+ :param node: VPP node.
+ :param node_vxlan_if: VPP node interface key to create VXLAN tunnel
+ interfaces.
+ :param node_vlan_if: VPP node interface key to create VLAN
+ sub-interface.
+ :param vxlan_count: Number of tunnel interfaces to create.
+ :param vni_start: VNI start ID.
+ :param src_ip_start: VXLAN tunnel source IP address start.
+ :param dst_ip_start: VXLAN tunnel destination IP address start.
+ :param ip_step: IP address incremental step.
+ :param ip_limit: IP address limit.
+ :type node: dict
+ :type node_vxlan_if: str
+ :type node_vlan_if: str
+ :type vxlan_count: int
+ :type vni_start: int
+ :type src_ip_start: str
+ :type dst_ip_start: str
+ :type ip_step: int
+ :type ip_limit: str
+ :returns: Number of created VXLAN interfaces.
+ :rtype: int
+ """
+ commands = list()
+
+ src_ip_start_int = IPUtil.ip_to_int(src_ip_start)
+ dst_ip_start_int = IPUtil.ip_to_int(dst_ip_start)
+ ip_limit_int = IPUtil.ip_to_int(ip_limit)
+
+ tmp_fn = '/tmp/create_vxlan_interfaces.config'
+ for i in range(0, vxlan_count):
+ src_ip_int = src_ip_start_int + i * ip_step
+ dst_ip_int = dst_ip_start_int + i * ip_step
+ if src_ip_int > ip_limit_int or dst_ip_int > ip_limit_int:
+ logger.warn("Can't do more iterations - IPv4 address limit "
+ "has been reached.")
+ vxlan_count = i
+ break
+ src_ip = IPUtil.int_to_ip(src_ip_int)
+ dst_ip = IPUtil.int_to_ip(dst_ip_int)
+ commands.append(
+ 'sw_interface_add_del_address sw_if_index {sw_idx} {ip}/32\n'
+ .format(sw_idx=Topology.get_interface_sw_index(
+ node, node_vxlan_if), ip=src_ip))
+ commands.append(
+ 'vxlan_add_del_tunnel src {src_ip} dst {dst_ip} vni {vni}\n'
+ .format(src_ip=src_ip, dst_ip=dst_ip, vni=vni_start+i))
+ commands.append(
+ 'create_vlan_subif sw_if_index {sw_idx} vlan {vlan}\n'
+ .format(sw_idx=Topology.get_interface_sw_index(
+ node, node_vlan_if), vlan=i+1))
+
+ VatExecutor().write_and_execute_script(node, tmp_fn, commands)
+
+ return vxlan_count
+
+ @staticmethod
+ def vpp_put_vxlan_and_vlan_interfaces_up(node, vxlan_count, node_vlan_if):
+ """
+ Update topology with VXLAN interfaces and VLAN sub-interfaces data
+ and put interfaces up.
+
+ :param node: VPP node.
+ :param vxlan_count: Number of tunnel interfaces.
+ :param node_vlan_if: VPP node interface key where VLAN sub-interfaces
+ have been created.
+ :type node: dict
+ :type vxlan_count: int
+ :type node_vlan_if: str
+ """
+ with VatTerminal(node) as vat_ter:
+ if_data = vat_ter.vat_terminal_exec_cmd_from_template(
+ 'interface_dump.vat')[0]
+
+ tmp_fn = '/tmp/put_subinterfaces_up.config'
+ commands = list()
+ for i in range(0, vxlan_count):
+ vxlan_subif_key = Topology.add_new_port(node, 'vxlan_tunnel')
+ vxlan_subif_name = 'vxlan_tunnel{nr}'.format(nr=i)
+ vxlan_found = False
+ vxlan_subif_idx = None
+ vlan_subif_key = Topology.add_new_port(node, 'vlan_subif')
+ vlan_subif_name = '{if_name}.{vlan}'.format(
+ if_name=Topology.get_interface_name(
+ node, node_vlan_if), vlan=i+1)
+ vlan_found = False
+ vlan_idx = None
+ for data in if_data:
+ if_name = data['interface_name']
+ if not vxlan_found and if_name == vxlan_subif_name:
+ vxlan_subif_idx = data['sw_if_index']
+ vxlan_found = True
+ elif not vlan_found and if_name == vlan_subif_name:
+ vlan_idx = data['sw_if_index']
+ vlan_found = True
+ if vxlan_found and vlan_found:
+ break
+ Topology.update_interface_sw_if_index(
+ node, vxlan_subif_key, vxlan_subif_idx)
+ Topology.update_interface_name(
+ node, vxlan_subif_key, vxlan_subif_name)
+ commands.append(
+ 'sw_interface_set_flags sw_if_index {sw_idx} admin-up link-up\n'
+ .format(sw_idx=vxlan_subif_idx))
+ Topology.update_interface_sw_if_index(
+ node, vlan_subif_key, vlan_idx)
+ Topology.update_interface_name(
+ node, vlan_subif_key, vlan_subif_name)
+ commands.append(
+ 'sw_interface_set_flags sw_if_index {sw_idx} admin-up link-up\n'
+ .format(sw_idx=vlan_idx))
+
+ VatExecutor().write_and_execute_script(node, tmp_fn, commands)
+
+ @staticmethod
+ def vpp_put_vxlan_and_vlan_interfaces_to_bridge_domain(
+ node, node_vxlan_if, vxlan_count, op_node, op_node_if, dst_ip_start,
+ ip_step, bd_id_start):
+ """
+ Configure ARPs and routes for VXLAN interfaces and put each pair of
+ VXLAN tunnel interface and VLAN sub-interface to separate bridge-domain.
+
+ :param node: VPP node.
+ :param node_vxlan_if: VPP node interface key where VXLAN tunnel
+ interfaces have been created.
+ :param vxlan_count: Number of tunnel interfaces.
+ :param op_node: Opposite VPP node for VXLAN tunnel interfaces.
+ :param op_node_if: Opposite VPP node interface key for VXLAN tunnel
+ interfaces.
+ :param dst_ip_start: VXLAN tunnel destination IP address start.
+ :param ip_step: IP address incremental step.
+ :param bd_id_start: Bridge-domain ID start.
+ :type node: dict
+ :type node_vxlan_if: str
+ :type vxlan_count: int
+ :type op_node: dict
+ :type op_node_if:
+ :type dst_ip_start: str
+ :type ip_step: int
+ :type bd_id_start: int
+ """
+ sw_idx_vxlan = Topology.get_interface_sw_index(node, node_vxlan_if)
+
+ dst_ip_start_int = IPUtil.ip_to_int(dst_ip_start)
+
+ tmp_fn = '/tmp/configure_routes_and_bridge_domains.config'
+ commands = list()
+ for i in range(0, vxlan_count):
+ dst_ip = IPUtil.int_to_ip(dst_ip_start_int + i * ip_step)
+ commands.append(
+ 'ip_neighbor_add_del sw_if_index {sw_idx} dst {ip} mac {mac}\n'
+ .format(sw_idx=sw_idx_vxlan, ip=dst_ip,
+ mac=Topology.get_interface_mac(op_node, op_node_if)))
+ commands.append(
+ 'ip_add_del_route {ip}/32 via {ip} sw_if_index {sw_idx}'
+ ' resolve-attempts 10 count 1\n'.format(
+ ip=dst_ip, sw_idx=sw_idx_vxlan))
+ bd_id = bd_id_start + i
+ subif_id = i + 1
+ commands.append(
+ 'sw_interface_set_l2_bridge sw_if_index {sw_idx} bd_id {bd_id} '
+ 'shg 0 enable\n'.format(sw_idx=Topology.get_interface_sw_index(
+ node, 'vxlan_tunnel{nr}'.format(nr=subif_id)), bd_id=bd_id))
+ commands.append(
+ 'sw_interface_set_l2_bridge sw_if_index {sw_idx} bd_id {bd_id} '
+ 'shg 0 enable\n'.format(sw_idx=Topology.get_interface_sw_index(
+ node, 'vlan_subif{nr}'.format(nr=subif_id)), bd_id=bd_id))
+
+ VatExecutor().write_and_execute_script(node, tmp_fn, commands)