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# Copyright (c) 2016 Cisco and/or its affiliates.
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at:
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""IPv4 setup library"""
from socket import inet_ntoa
from struct import pack
from abc import ABCMeta, abstractmethod
from robot.api.deco import keyword
from resources.libraries.python.ssh import exec_cmd_no_error
from resources.libraries.python.Routing import Routing
from resources.libraries.python.topology import NodeType, Topology
from resources.libraries.python.VatExecutor import VatExecutor
class IPv4Node(object):
"""Abstract class of a node in a topology."""
__metaclass__ = ABCMeta
def __init__(self, node_info):
self.node_info = node_info
@staticmethod
def _get_netmask(prefix_length):
"""Convert IPv4 network prefix length into IPV4 network mask.
:param prefix_length: Length of network prefix.
:type prefix_length: int
:returns: Network mask.
:rtype: str
"""
bits = 0xffffffff ^ (1 << 32 - prefix_length) - 1
return inet_ntoa(pack('>I', bits))
@abstractmethod
def set_ip(self, interface, address, prefix_length):
"""Configure IPv4 address on interface.
:param interface: Interface name.
:param address: IPv4 address.
:param prefix_length: IPv4 prefix length.
:type interface: str
:type address: str
:type prefix_length: int
:returns: nothing
"""
pass
@abstractmethod
def set_route(self, network, prefix_length, gateway, interface, count=1):
"""Configure IPv4 route.
:param network: Network IPv4 address.
:param prefix_length: IPv4 prefix length.
:param gateway: IPv4 address of the gateway.
:param interface: Interface name.
:param count: Number of consecutive routes to add.
:type network: str
:type prefix_length: int
:type gateway: str
:type interface: str
:type route: int
:returns: nothing
"""
pass
@abstractmethod
def unset_route(self, network, prefix_length, gateway, interface):
"""Remove specified IPv4 route.
:param network: Network IPv4 address.
:param prefix_length: IPv4 prefix length.
:param gateway: IPv4 address of the gateway.
:param interface: Interface name.
:type network: str
:type prefix_length: int
:type gateway: str
:type interface: str
:returns: nothing
"""
pass
@abstractmethod
def flush_ip_addresses(self, interface):
"""Flush all IPv4 addresses from specified interface.
:param interface: Interface name.
:type interface: str
:return: nothing
"""
pass
@abstractmethod
def ping(self, destination_address, source_interface):
"""Send an ICMP request to destination node.
:param destination_address: Address to send the ICMP request.
:param source_interface: Source interface name.
:type destination_address: str
:type source_interface: str
:returns: nothing
"""
pass
class Tg(IPv4Node):
"""Traffic generator node"""
def __init__(self, node_info):
super(Tg, self).__init__(node_info)
def _execute(self, cmd):
"""Executes the specified command on TG using SSH.
:param cmd: Command to be executed.
:type cmd: str
:returns: Content of stdout and stderr returned by command.
:rtype: tuple
"""
return exec_cmd_no_error(self.node_info, cmd)
def _sudo_execute(self, cmd):
"""Executes the specified command with sudo on TG using SSH.
:param cmd: Command to be executed.
:type cmd: str
:returns: Content of stdout and stderr returned by command.
:rtype: tuple
"""
return exec_cmd_no_error(self.node_info, cmd, sudo=True)
def set_ip(self, interface, address, prefix_length):
cmd = 'ip -4 addr flush dev {}'.format(interface)
self._sudo_execute(cmd)
cmd = 'ip addr add {}/{} dev {}'.format(address, prefix_length,
interface)
self._sudo_execute(cmd)
def set_route(self, network, prefix_length, gateway, interface, count=1):
netmask = self._get_netmask(prefix_length)
cmd = 'route add -net {} netmask {} gw {}'.\
format(network, netmask, gateway)
self._sudo_execute(cmd)
def unset_route(self, network, prefix_length, gateway, interface):
self._sudo_execute('ip route delete {}/{}'.
format(network, prefix_length))
def arp_ping(self, destination_address, source_interface):
"""Execute 'arping' command to send one ARP packet from the TG node.
:param destination_address: Destination IP address for the ARP packet.
:param source_interface: Name of an interface to send ARP packet from.
:type destination_address: str
:type source_interface: str
"""
self._sudo_execute('arping -c 1 -I {} {}'.format(source_interface,
destination_address))
def ping(self, destination_address, source_interface):
self._execute('ping -c 1 -w 5 -I {} {}'.format(source_interface,
destination_address))
def flush_ip_addresses(self, interface):
self._sudo_execute('ip addr flush dev {}'.format(interface))
class Dut(IPv4Node):
"""Device under test"""
def __init__(self, node_info):
super(Dut, self).__init__(node_info)
def get_sw_if_index(self, interface):
"""Get sw_if_index of specified interface from current node.
:param interface: Interface name.
:type interface: str
:returns: sw_if_index of the interface or None.
:rtype: int
"""
return Topology().get_interface_sw_index(self.node_info, interface)
def exec_vat(self, script, **args):
"""Wrapper for VAT executor.
:param script: Script to execute.
:param args: Parameters to the script.
:type script: str
:type args: dict
:returns: nothing
"""
# TODO: check return value
VatExecutor.cmd_from_template(self.node_info, script, **args)
def set_arp(self, iface_key, ip_address, mac_address):
"""Set entry in ARP cache.
:param iface_key: Interface key.
:param ip_address: IP address.
:param mac_address: MAC address.
:type iface_key: str
:type ip_address: str
:type mac_address: str
"""
self.exec_vat('add_ip_neighbor.vat',
sw_if_index=self.get_sw_if_index(iface_key),
ip_address=ip_address, mac_address=mac_address)
def set_ip(self, interface, address, prefix_length):
self.exec_vat('add_ip_address.vat',
sw_if_index=self.get_sw_if_index(interface),
address=address, prefix_length=prefix_length)
def set_route(self, network, prefix_length, gateway, interface, count=1):
Routing.vpp_route_add(self.node_info,
network=network, prefix_len=prefix_length,
gateway=gateway, interface=interface, count=count)
def unset_route(self, network, prefix_length, gateway, interface):
self.exec_vat('del_route.vat', network=network,
prefix_length=prefix_length, gateway=gateway,
sw_if_index=self.get_sw_if_index(interface))
def arp_ping(self, destination_address, source_interface):
"""Does nothing."""
pass
def flush_ip_addresses(self, interface):
self.exec_vat('flush_ip_addresses.vat',
sw_if_index=self.get_sw_if_index(interface))
def ping(self, destination_address, source_interface):
pass
def get_node(node_info):
"""Creates a class instance derived from Node based on type.
:param node_info: Dictionary containing information on nodes in topology.
:type node_info: dict
:returns: Class instance that is derived from Node.
"""
if node_info['type'] == NodeType.TG:
return Tg(node_info)
elif node_info['type'] == NodeType.DUT:
return Dut(node_info)
else:
raise NotImplementedError('Node type "{}" unsupported!'.
format(node_info['type']))
class IPv4Setup(object):
"""IPv4 setup in topology."""
@staticmethod
def vpp_nodes_set_ipv4_addresses(nodes, nodes_addr):
"""Set IPv4 addresses on all VPP nodes in topology.
:param nodes: Nodes of the test topology.
:param nodes_addr: Available nodes IPv4 addresses.
:type nodes: dict
:type nodes_addr: dict
:returns: Affected interfaces as list of (node, interface) tuples.
:rtype: list
"""
interfaces = []
for net in nodes_addr.values():
for port in net['ports'].values():
host = port.get('node')
if host is None:
continue
topo = Topology()
node = topo.get_node_by_hostname(nodes, host)
if node is None:
continue
if node['type'] != NodeType.DUT:
continue
iface_key = topo.get_interface_by_name(node, port['if'])
get_node(node).set_ip(iface_key, port['addr'], net['prefix'])
interfaces.append((node, port['if']))
return interfaces
@staticmethod
@keyword('Get IPv4 address of node "${node}" interface "${port}" '
'from "${nodes_addr}"')
def get_ip_addr(node, iface_key, nodes_addr):
"""Return IPv4 address of the node port.
:param node: Node in the topology.
:param iface_key: Interface key of the node.
:param nodes_addr: Nodes IPv4 addresses.
:type node: dict
:type iface_key: str
:type nodes_addr: dict
:returns: IPv4 address.
:rtype: str
"""
interface = Topology.get_interface_name(node, iface_key)
for net in nodes_addr.values():
for port in net['ports'].values():
host = port.get('node')
dev = port.get('if')
if host == node['host'] and dev == interface:
ip_addr = port.get('addr')
if ip_addr is not None:
return ip_addr
else:
raise Exception(
'Node {n} port {p} IPv4 address is not set'.format(
n=node['host'], p=interface))
raise Exception('Node {n} port {p} IPv4 address not found.'.format(
n=node['host'], p=interface))
@staticmethod
def setup_arp_on_all_duts(nodes_info, nodes_addr):
"""For all DUT nodes extract MAC and IP addresses of adjacent
interfaces from topology and use them to setup ARP entries.
:param nodes_info: Dictionary containing information on all nodes
in topology.
:param nodes_addr: Nodes IPv4 addresses.
:type nodes_info: dict
:type nodes_addr: dict
"""
for node in nodes_info.values():
if node['type'] == NodeType.TG:
continue
for iface_key in node['interfaces'].keys():
adj_node, adj_int = Topology.\
get_adjacent_node_and_interface(nodes_info, node, iface_key)
ip_address = IPv4Setup.get_ip_addr(adj_node, adj_int,
nodes_addr)
mac_address = Topology.get_interface_mac(adj_node, adj_int)
get_node(node).set_arp(iface_key, ip_address, mac_address)
@staticmethod
def add_arp_on_dut(node, iface_key, ip_address, mac_address):
"""Set ARP cache entree on DUT node.
:param node: VPP Node in the topology.
:param iface_key: Interface key.
:param ip_address: IP address of the interface.
:param mac_address: MAC address of the interface.
:type node: dict
:type iface_key: str
:type ip_address: str
:type mac_address: str
"""
get_node(node).set_arp(iface_key, ip_address, mac_address)
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