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/*
* Copyright (c) 2015-2017 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.
*/
#include <vnet/vnet.h>
#include <vlibmemory/api.h>
#include <vnet/session/application.h>
#include <vnet/session/application_interface.h>
typedef struct
{
/*
* Server app parameters
*/
unix_shared_memory_queue_t **vpp_queue;
unix_shared_memory_queue_t *vl_input_queue; /**< Sever's event queue */
u32 app_index; /**< Server app index */
u32 my_client_index; /**< API client handle */
u32 node_index; /**< process node index for evnt scheduling */
/*
* Config params
*/
u8 no_echo; /**< Don't echo traffic */
u32 fifo_size; /**< Fifo size */
u32 rcv_buffer_size; /**< Rcv buffer size */
u32 prealloc_fifos; /**< Preallocate fifos */
u32 private_segment_count; /**< Number of private segments */
u32 private_segment_size; /**< Size of private segments */
char *server_uri; /**< Server URI */
/*
* Test state
*/
u8 **rx_buf; /**< Per-thread RX buffer */
u64 byte_index;
u32 **rx_retries;
vlib_main_t *vlib_main;
} builtin_server_main_t;
builtin_server_main_t builtin_server_main;
int
builtin_session_accept_callback (stream_session_t * s)
{
builtin_server_main_t *bsm = &builtin_server_main;
bsm->vpp_queue[s->thread_index] =
session_manager_get_vpp_event_queue (s->thread_index);
s->session_state = SESSION_STATE_READY;
bsm->byte_index = 0;
vec_validate (bsm->rx_retries[s->thread_index], s->session_index);
bsm->rx_retries[s->thread_index][s->session_index] = 0;
return 0;
}
void
builtin_session_disconnect_callback (stream_session_t * s)
{
builtin_server_main_t *bsm = &builtin_server_main;
vnet_disconnect_args_t _a, *a = &_a;
a->handle = session_handle (s);
a->app_index = bsm->app_index;
vnet_disconnect_session (a);
}
void
builtin_session_reset_callback (stream_session_t * s)
{
clib_warning ("Reset session %U", format_stream_session, s, 2);
stream_session_cleanup (s);
}
int
builtin_session_connected_callback (u32 app_index, u32 api_context,
stream_session_t * s, u8 is_fail)
{
clib_warning ("called...");
return -1;
}
int
builtin_add_segment_callback (u32 client_index,
const u8 * seg_name, u32 seg_size)
{
clib_warning ("called...");
return -1;
}
int
builtin_redirect_connect_callback (u32 client_index, void *mp)
{
clib_warning ("called...");
return -1;
}
void
test_bytes (builtin_server_main_t * bsm, int actual_transfer)
{
int i;
u32 my_thread_id = vlib_get_thread_index ();
for (i = 0; i < actual_transfer; i++)
{
if (bsm->rx_buf[my_thread_id][i] != ((bsm->byte_index + i) & 0xff))
{
clib_warning ("at %lld expected %d got %d", bsm->byte_index + i,
(bsm->byte_index + i) & 0xff,
bsm->rx_buf[my_thread_id][i]);
}
}
bsm->byte_index += actual_transfer;
}
/*
* If no-echo, just read the data and be done with it
*/
int
builtin_server_rx_callback_no_echo (stream_session_t * s)
{
builtin_server_main_t *bsm = &builtin_server_main;
u32 my_thread_id = vlib_get_thread_index ();
int actual_transfer;
svm_fifo_t *rx_fifo;
rx_fifo = s->server_rx_fifo;
do
{
actual_transfer =
svm_fifo_dequeue_nowait (rx_fifo, bsm->rcv_buffer_size,
bsm->rx_buf[my_thread_id]);
}
while (actual_transfer > 0);
return 0;
}
int
builtin_server_rx_callback (stream_session_t * s)
{
u32 n_written, max_dequeue, max_enqueue, max_transfer;
int actual_transfer;
svm_fifo_t *tx_fifo, *rx_fifo;
builtin_server_main_t *bsm = &builtin_server_main;
session_fifo_event_t evt;
u32 thread_index = vlib_get_thread_index ();
ASSERT (s->thread_index == thread_index);
rx_fifo = s->server_rx_fifo;
tx_fifo = s->server_tx_fifo;
ASSERT (rx_fifo->master_thread_index == thread_index);
ASSERT (tx_fifo->master_thread_index == thread_index);
max_dequeue = svm_fifo_max_dequeue (s->server_rx_fifo);
max_enqueue = svm_fifo_max_enqueue (s->server_tx_fifo);
if (PREDICT_FALSE (max_dequeue == 0))
return 0;
/* Number of bytes we're going to copy */
max_transfer = (max_dequeue < max_enqueue) ? max_dequeue : max_enqueue;
/* No space in tx fifo */
if (PREDICT_FALSE (max_transfer == 0))
{
/* XXX timeout for session that are stuck */
rx_event:
/* Program self-tap to retry */
if (svm_fifo_set_event (rx_fifo))
{
unix_shared_memory_queue_t *q;
evt.fifo = rx_fifo;
evt.event_type = FIFO_EVENT_BUILTIN_RX;
q = bsm->vpp_queue[thread_index];
if (PREDICT_FALSE (q->cursize == q->maxsize))
clib_warning ("out of event queue space");
else if (unix_shared_memory_queue_add (q, (u8 *) & evt, 0))
clib_warning ("failed to enqueue self-tap");
if (bsm->rx_retries[thread_index][s->session_index] == 500000)
{
clib_warning ("session stuck: %U", format_stream_session, s, 2);
}
if (bsm->rx_retries[thread_index][s->session_index] < 500001
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#!/usr/bin/env python3
from __future__ import print_function
"""ACL plugin - MACIP tests
"""
import binascii
import ipaddress
import random
from socket import inet_ntop, inet_pton, AF_INET, AF_INET6
from struct import pack, unpack
import re
import unittest
from ipaddress import ip_network, IPv4Network, IPv6Network
import scapy.compat
from scapy.packet import Raw
from scapy.layers.l2 import Ether
from scapy.layers.inet import IP, UDP
from scapy.layers.inet6 import IPv6
from framework import VppTestCase, VppTestRunner
from vpp_lo_interface import VppLoInterface
from vpp_l2 import L2_PORT_TYPE
from vpp_sub_interface import (
L2_VTR_OP,
VppSubInterface,
VppDot1QSubint,
VppDot1ADSubint,
)
from vpp_acl import (
AclRule,
VppAcl,
VppAclInterface,
VppEtypeWhitelist,
VppMacipAclInterface,
VppMacipAcl,
MacipRule,
)
from vpp_papi import MACAddress
class MethodHolder(VppTestCase):
DEBUG = False
BRIDGED = True
ROUTED = False
IS_IP4 = False
IS_IP6 = True
DOT1AD = "dot1ad"
DOT1Q = "dot1q"
PERMIT_TAGS = True
DENY_TAGS = False
# rule types
DENY = 0
PERMIT = 1
# ACL types
EXACT_IP = 1
SUBNET_IP = 2
WILD_IP = 3
EXACT_MAC = 1
WILD_MAC = 2
OUI_MAC = 3
ACLS = []
@classmethod
def setUpClass(cls):
"""
Perform standard class setup (defined by class method setUpClass in
class VppTestCase) before running the test case, set test case related
variables and configure VPP.
"""
super(MethodHolder, cls).setUpClass()
cls.pg_if_packet_sizes = [64, 512, 1518, 9018] # packet sizes
cls.bd_id = 111
cls.remote_hosts_count = 200
try:
# create 4 pg interfaces, 1 loopback interface
cls.create_pg_interfaces(range(4))
cls.create_loopback_interfaces(1)
# create 2 subinterfaces
cls.subifs = [
VppDot1QSubint(cls, cls.pg1, 10),
VppDot1ADSubint(cls, cls.pg2, 20, 300, 400),
VppDot1QSubint(cls, cls.pg3, 30),
VppDot1ADSubint(cls, cls.pg3, 40, 600, 700),
]
cls.subifs[0].set_vtr(L2_VTR_OP.L2_POP_1, inner=10, push1q=1)
cls.subifs[1].set_vtr(L2_VTR_OP.L2_POP_2, outer=300, inner=400, push1q=1)
cls.subifs[2].set_vtr(L2_VTR_OP.L2_POP_1, inner=30, push1q=1)
cls.subifs[3].set_vtr(L2_VTR_OP.L2_POP_2, outer=600, inner=700, push1q=1)
cls.interfaces = list(cls.pg_interfaces)
cls.interfaces.extend(cls.lo_interfaces)
cls.interfaces.extend(cls.subifs)
for i in cls.interfaces:
i.admin_up()
# Create BD with MAC learning enabled and put interfaces to this BD
cls.vapi.sw_interface_set_l2_bridge(
rx_sw_if_index=cls.loop0.sw_if_index,
bd_id=cls.bd_id,
port_type=L2_PORT_TYPE.BVI,
)
cls.vapi.sw_interface_set_l2_bridge(
rx_sw_if_index=cls.pg0.sw_if_index, bd_id=cls.bd_id
)
cls.vapi.sw_interface_set_l2_bridge(
rx_sw_if_index=cls.pg1.sw_if_index, bd_id=cls.bd_id
)
cls.vapi.sw_interface_set_l2_bridge(
rx_sw_if_index=cls.subifs[0].sw_if_index, bd_id=cls.bd_id
)
cls.vapi.sw_interface_set_l2_bridge(
rx_sw_if_index=cls.subifs[1].sw_if_index, bd_id=cls.bd_id
)
# Configure IPv4/6 addresses on loop interface and routed interface
cls.loop0.config_ip4()
cls.loop0.config_ip6()
cls.pg2.config_ip4()
cls.pg2.config_ip6()
cls.pg3.config_ip4()
cls.pg3.config_ip6()
# Configure MAC address binding to IPv4 neighbors on loop0
cls.loop0.generate_remote_hosts(cls.remote_hosts_count)
# Modify host mac addresses to have different OUI parts
for i in range(2, cls.remote_hosts_count + 2):
mac = cls.loop0.remote_hosts[i - 2]._mac.split(":")
mac[2] = format(int(mac[2], 16) + i, "02x")
cls.loop0.remote_hosts[i - 2]._mac = ":".join(mac)
cls.loop0.configure_ipv4_neighbors()
cls.loop0.configure_ipv6_neighbors()
# configure MAC address on pg3
cls.pg3.resolve_arp()
cls.pg3.resolve_ndp()
# configure MAC address on subifs
for i in cls.subifs:
i.config_ip4()
i.resolve_arp()
i.config_ip6()
# configure MAC address on pg2
cls.pg2.resolve_arp()
cls.pg2.resolve_ndp()
# Loopback BVI interface has remote hosts
# one half of hosts are behind pg0 second behind pg1,pg2,pg3 subifs
cls.pg0.remote_hosts = cls.loop0.remote_hosts[:100]
cls.subifs[0].remote_hosts = cls.loop0.remote_hosts[100:125]
cls.subifs[1].remote_hosts = cls.loop0.remote_hosts[125:150]
cls.subifs[2].remote_hosts = cls.loop0.remote_hosts[150:175]
cls.subifs[3].remote_hosts = cls.loop0.remote_hosts[175:]
except Exception:
super(MethodHolder, cls).tearDownClass()
raise
@classmethod
def tearDownClass(cls):
super(MethodHolder, cls).tearDownClass()
def setUp(self):
super(MethodHolder, self).setUp()
self.reset_packet_infos()
def show_commands_at_teardown(self):
self.logger.info(self.vapi.ppcli("show interface address"))
self.logger.info(self.vapi.ppcli("show hardware"))
self.logger.info(self.vapi.ppcli("sh acl-plugin macip acl"))
self.logger.info(self.vapi.ppcli("sh acl-plugin macip interface"))
self.logger.info(self.vapi.ppcli("sh classify tables verbose"))
self.logger.info(self.vapi.ppcli("sh acl-plugin acl"))
self.logger.info(self.vapi.ppcli("sh acl-plugin interface"))
self.logger.info(self.vapi.ppcli("sh acl-plugin tables"))
# print(self.vapi.ppcli("show interface address"))
# print(self.vapi.ppcli("show hardware"))
# print(self.vapi.ppcli("sh acl-plugin macip interface"))
# print(self.vapi.ppcli("sh acl-plugin macip acl"))
def macip_acl_dump_debug(self):
acls = self.vapi.macip_acl_dump()
if self.DEBUG:
for acl in acls:
# print("ACL #"+str(acl.acl_index))
for r in acl.r:
rule = "ACTION"
if r.is_permit == 1:
rule = "PERMIT"
elif r.is_permit == 0:
rule = "DENY "
"""
print(" IP6" if r.is_ipv6 else " IP4",
rule,
binascii.hexlify(r.src_mac),
binascii.hexlify(r.src_mac_mask),
unpack('<16B', r.src_ip_addr),
r.src_ip_prefix_len)
"""
return acls
def create_rules(
self, mac_type=EXACT_MAC, ip_type=EXACT_IP, acl_count=1, rules_count=None
):
acls = []
if rules_count is None:
rules_count = [1]
src_mac = int("220000dead00", 16)
for acl in range(2, (acl_count + 1) * 2):
rules = []
host = random.choice(self.loop0.remote_hosts)
is_ip6 = acl % 2
ip4 = host.ip4.split(".")
ip6 = list(unpack("<16B", inet_pton(AF_INET6, host.ip6)))
if ip_type == self.EXACT_IP:
prefix_len4 = 32
prefix_len6 = 128
elif ip_type == self.WILD_IP:
ip4 = [0, 0, 0, 0]
ip6 = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
prefix_len4 = 0
prefix_len6 = 0
rules_count[int((acl / 2) - 1)] = 1
else:
prefix_len4 = 24
prefix_len6 = 64
if mac_type == self.EXACT_MAC:
mask = "ff:ff:ff:ff:ff:ff"
elif mac_type == self.WILD_MAC:
mask = "00:00:00:00:00:00"
elif mac_type == self.OUI_MAC:
mask = "ff:ff:ff:00:00:00"
else:
mask = "ff:ff:ff:ff:ff:00"
ip = ip6 if is_ip6 else ip4
ip_len = prefix_len6 if is_ip6 else prefix_len4
for i in range(0, (rules_count[int((acl / 2) - 1)])):
src_mac += 16777217
if mac_type == self.WILD_MAC:
mac = "00:00:00:00:00:00"
elif mac_type == self.OUI_MAC:
mac = (
":".join(re.findall("..", "{:02x}".format(src_mac))[:3])
+ ":00:00:00"
)
else:
mac = ":".join(re.findall("..", "{:02x}".format(src_mac)))
if ip_type == self.EXACT_IP:
ip4[3] = random.randint(100, 200)
ip6[15] = random.randint(100, 200)
elif ip_type == self.SUBNET_IP:
ip4[2] = random.randint(100, 200)
ip4[3] = 0
ip6[7] = random.randint(100, 200)
ip6[15] = 0
ip_pack = b""
for j in range(0, len(ip)):
ip_pack += pack("<B", int(ip[j]))
rule = MacipRule(
is_permit=self.PERMIT,
src_prefix=ip_network((ip_pack, ip_len)),
src_mac=MACAddress(mac).packed,
src_mac_mask=MACAddress(mask).packed,
)
rules.append(rule)
if ip_type == self.WILD_IP:
break
acls.append(rules)
src_mac += 1099511627776
return acls
def apply_macip_rules(self, acls):
macip_acls = []
for acl in acls:
macip_acl = VppMacipAcl(self, rules=acl)
macip_acl.add_vpp_config()
macip_acls.append(macip_acl)
return macip_acls
def verify_macip_acls(self, acl_count, rules_count, expected_count=2):
reply = self.macip_acl_dump_debug()
for acl in range(2, (acl_count + 1) * 2):
self.assertEqual(reply[acl - 2].count, rules_count[acl // 2 - 1])
self.vapi.macip_acl_interface_get()
self.vapi.macip_acl_interface_add_del(sw_if_index=0, acl_index=0)
self.vapi.macip_acl_interface_add_del(sw_if_index=1, acl_index=1)
reply = self.vapi.macip_acl_interface_get()
self.assertEqual(reply.count, expected_count)
def create_stream(
self,
mac_type,
ip_type,
packet_count,
src_if,
dst_if,
traffic,
is_ip6,
tags=PERMIT_TAGS,
):
# exact MAC and exact IP
# exact MAC and subnet of IPs
# exact MAC and wildcard IP
# wildcard MAC and exact IP
# wildcard MAC and subnet of IPs
# wildcard MAC and wildcard IP
# OUI restricted MAC and exact IP
# OUI restricted MAC and subnet of IPs
# OUI restricted MAC and wildcard IP
packets = []
macip_rules = []
acl_rules = []
ip_permit = ""
mac_permit = ""
dst_mac = ""
mac_rule = "00:00:00:00:00:00"
mac_mask = "00:00:00:00:00:00"
for p in range(0, packet_count):
remote_dst_index = p % len(dst_if.remote_hosts)
remote_dst_host = dst_if.remote_hosts[remote_dst_index]
dst_port = 1234 + p
src_port = 4321 + p
is_permit = self.PERMIT if p % 3 == 0 else self.DENY
denyMAC = True if not is_permit and p % 3 == 1 else False
denyIP = True if not is_permit and p % 3 == 2 else False
if not is_permit and ip_type == self.WILD_IP:
denyMAC = True
if not is_permit and mac_type == self.WILD_MAC:
denyIP = True
if traffic == self.BRIDGED:
if is_permit:
src_mac = remote_dst_host._mac
dst_mac = "de:ad:00:00:00:00"
src_ip4 = remote_dst_host.ip4
dst_ip4 = src_if.remote_ip4
src_ip6 = remote_dst_host.ip6
dst_ip6 = src_if.remote_ip6
ip_permit = src_ip6 if is_ip6 else src_ip4
mac_permit = src_mac
if denyMAC:
mac = src_mac.split(":")
mac[0] = format(int(mac[0], 16) + 1, "02x")
src_mac = ":".join(mac)
if is_ip6:
src_ip6 = ip_permit
else:
src_ip4 = ip_permit
if denyIP:
if ip_type != self.WILD_IP:
src_mac = mac_permit
src_ip4 = remote_dst_host.ip4
dst_ip4 = src_if.remote_ip4
src_ip6 = remote_dst_host.ip6
dst_ip6 = src_if.remote_ip6
else:
if is_permit:
src_mac = remote_dst_host._mac
dst_mac = src_if.local_mac
src_ip4 = src_if.remote_ip4
dst_ip4 = remote_dst_host.ip4
src_ip6 = src_if.remote_ip6
dst_ip6 = remote_dst_host.ip6
ip_permit = src_ip6 if is_ip6 else src_ip4
mac_permit = src_mac
if denyMAC:
mac = src_mac.split(":")
mac[0] = format(int(mac[0], 16) + 1, "02x")
src_mac = ":".join(mac)
if is_ip6:
src_ip6 = ip_permit
else:
src_ip4 = ip_permit
if denyIP:
src_mac = remote_dst_host._mac
if ip_type != self.WILD_IP:
src_mac = mac_permit
src_ip4 = remote_dst_host.ip4
dst_ip4 = src_if.remote_ip4
src_ip6 = remote_dst_host.ip6
dst_ip6 = src_if.remote_ip6
if is_permit:
info = self.create_packet_info(src_if, dst_if)
payload = self.info_to_payload(info)
else:
payload = "to be blocked"
if mac_type == self.WILD_MAC:
mac = src_mac.split(":")
for i in range(1, 5):
mac[i] = format(random.randint(0, 255), "02x")
src_mac = ":".join(mac)
# create packet
packet = Ether(src=src_mac, dst=dst_mac)
ip_rule = src_ip6 if is_ip6 else src_ip4
if is_ip6:
if ip_type != self.EXACT_IP:
sub_ip = list(unpack("<16B", inet_pton(AF_INET6, ip_rule)))
if ip_type == self.WILD_IP:
sub_ip[0] = random.randint(240, 254)
sub_ip[1] = random.randint(230, 239)
sub_ip[14] = random.randint(100, 199)
sub_ip[15] = random.randint(200, 255)
elif ip_type == self.SUBNET_IP:
if denyIP:
sub_ip[2] = int(sub_ip[2]) + 1
sub_ip[14] = random.randint(100, 199)
sub_ip[15] = random.randint(200, 255)
packed_src_ip6 = b"".join([scapy.compat.chb(x) for x in sub_ip])
src_ip6 = inet_ntop(AF_INET6, packed_src_ip6)
packet /= IPv6(src=src_ip6, dst=dst_ip6)
else:
if ip_type != self.EXACT_IP:
sub_ip = ip_rule.split(".")
if ip_type == self.WILD_IP:
sub_ip[0] = random.randint(1, 49)
sub_ip[1] = random.randint(50, 99)
sub_ip[2] = random.randint(100, 199)
sub_ip[3] = random.randint(200, 255)
elif ip_type == self.SUBNET_IP:
if denyIP:
sub_ip[1] = int(sub_ip[1]) + 1
sub_ip[2] = random.randint(100, 199)
sub_ip[3] = random.randint(200, 255)
src_ip4 = ".".join(["{!s}".format(x) for x in sub_ip])
packet /= IP(src=src_ip4, dst=dst_ip4, frag=0, flags=0)
packet /= UDP(sport=src_port, dport=dst_port) / Raw(payload)
packet[Raw].load += b" mac:%s" % src_mac.encode("utf-8")
size = self.pg_if_packet_sizes[p % len(self.pg_if_packet_sizes)]
if isinstance(src_if, VppSubInterface):
size = size + 4
if isinstance(src_if, VppDot1QSubint):
if src_if is self.subifs[0]:
if tags == self.PERMIT_TAGS:
packet = src_if.add_dot1q_layer(packet, 10)
else:
packet = src_if.add_dot1q_layer(packet, 11)
else:
if tags == self.PERMIT_TAGS:
packet = src_if.add_dot1q_layer(packet, 30)
else:
packet = src_if.add_dot1q_layer(packet, 33)
elif isinstance(src_if, VppDot1ADSubint):
if src_if is self.subifs[1]:
if tags == self.PERMIT_TAGS:
packet = src_if.add_dot1ad_layer(packet, 300, 400)
else:
packet = src_if.add_dot1ad_layer(packet, 333, 444)
else:
if tags == self.PERMIT_TAGS:
packet = src_if.add_dot1ad_layer(packet, 600, 700)
else:
packet = src_if.add_dot1ad_layer(packet, 666, 777)
self.extend_packet(packet, size)
packets.append(packet)
# create suitable MACIP rule
if mac_type == self.EXACT_MAC:
mac_rule = src_mac
mac_mask = "ff:ff:ff:ff:ff:ff"
elif mac_type == self.WILD_MAC:
mac_rule = "00:00:00:00:00:00"
mac_mask = "00:00:00:00:00:00"
elif mac_type == self.OUI_MAC:
mac = src_mac.split(":")
mac[3] = mac[4] = mac[5] = "00"
mac_rule = ":".join(mac)
mac_mask = "ff:ff:ff:00:00:00"
if is_ip6:
if ip_type == self.WILD_IP:
ip = "0::0"
else:
ip = src_ip6
if ip_type == self.SUBNET_IP:
sub_ip = list(unpack("<16B", inet_pton(AF_INET6, ip)))
for i in range(8, 16):
sub_ip[i] = 0
packed_ip = b"".join([scapy.compat.chb(x) for x in sub_ip])
ip = inet_ntop(AF_INET6, packed_ip)
else:
if ip_type == self.WILD_IP:
ip = "0.0.0.0"
else:
ip = src_ip4
if ip_type == self.SUBNET_IP:
sub_ip = ip.split(".")
sub_ip[2] = sub_ip[3] = "0"
ip = ".".join(sub_ip)
prefix_len = 128 if is_ip6 else 32
if ip_type == self.WILD_IP:
prefix_len = 0
elif ip_type == self.SUBNET_IP:
prefix_len = 64 if is_ip6 else 16
ip_rule = inet_pton(AF_INET6 if is_ip6 else AF_INET, ip)
# create suitable ACL rule
if is_permit:
rule_l4_sport = packet[UDP].sport
rule_l4_dport = packet[UDP].dport
rule_family = AF_INET6 if packet.haslayer(IPv6) else AF_INET
rule_prefix_len = 128 if packet.haslayer(IPv6) else 32
rule_l3_layer = IPv6 if packet.haslayer(IPv6) else IP
if packet.haslayer(IPv6):
rule_l4_proto = packet[UDP].overload_fields[IPv6]["nh"]
else:
rule_l4_proto = packet[IP].proto
src_network = ip_network((packet[rule_l3_layer].src, rule_prefix_len))
dst_network = ip_network((packet[rule_l3_layer].dst, rule_prefix_len))
acl_rule = AclRule(
is_permit=is_permit,
proto=rule_l4_proto,
src_prefix=src_network,
dst_prefix=dst_network,
sport_from=rule_l4_sport,
sport_to=rule_l4_sport,
dport_from=rule_l4_dport,
dport_to=rule_l4_dport,
)
acl_rules.append(acl_rule)
if mac_type == self.WILD_MAC and ip_type == self.WILD_IP and p > 0:
continue
if is_permit:
macip_rule = MacipRule(
is_permit=is_permit,
src_prefix=ip_network((ip_rule, prefix_len)),
src_mac=MACAddress(mac_rule).packed,
src_mac_mask=MACAddress(mac_mask).packed,
)
macip_rules.append(macip_rule)
# deny all other packets
if not (mac_type == self.WILD_MAC and ip_type == self.WILD_IP):
network = IPv6Network((0, 0)) if is_ip6 else IPv4Network((0, 0))
macip_rule = MacipRule(
is_permit=0,
src_prefix=network,
src_mac=MACAddress("00:00:00:00:00:00").packed,
src_mac_mask=MACAddress("00:00:00:00:00:00").packed,
)
macip_rules.append(macip_rule)
network = IPv6Network((0, 0)) if is_ip6 else IPv4Network((0, 0))
acl_rule = AclRule(
is_permit=0,
src_prefix=network,
dst_prefix=network,
sport_from=0,
sport_to=0,
dport_from=0,
dport_to=0,
)
acl_rules.append(acl_rule)
return {"stream": packets, "macip_rules": macip_rules, "acl_rules": acl_rules}
def verify_capture(self, stream, capture, is_ip6):
"""
:param stream:
:param capture:
:param is_ip6:
:return:
"""
# p_l3 = IPv6 if is_ip6 else IP
# if self.DEBUG:
# for p in stream:
# print(p[Ether].src, p[Ether].dst, p[p_l3].src, p[p_l3].dst)
#
# acls = self.macip_acl_dump_debug()
# TODO : verify
# for acl in acls:
# for r in acl.r:
# print(binascii.hexlify(r.src_mac), \
# binascii.hexlify(r.src_mac_mask),\
# unpack('<16B', r.src_ip_addr), \
# r.src_ip_prefix_len)
#
# for p in capture:
# print(p[Ether].src, p[Ether].dst, p[p_l3].src, p[p_l3].dst
# data = p[Raw].load.split(':',1)[1])
# print(p[p_l3].src, data)
def run_traffic(
self,
mac_type,
ip_type,
traffic,
is_ip6,
packets,
do_not_expected_capture=False,
tags=None,
apply_rules=True,
isMACIP=True,
permit_tags=PERMIT_TAGS,
try_replace=False,
):
self.reset_packet_infos()
if tags is None:
tx_if = self.pg0 if traffic == self.BRIDGED else self.pg3
rx_if = self.pg3 if traffic == self.BRIDGED else self.pg0
src_if = self.pg3
dst_if = self.loop0
else:
if tags == self.DOT1Q:
if traffic == self.BRIDGED:
tx_if = self.subifs[0]
rx_if = self.pg0
src_if = self.subifs[0]
dst_if = self.loop0
else:
tx_if = self.subifs[2]
rx_if = self.pg0
src_if = self.subifs[2]
dst_if = self.loop0
elif tags == self.DOT1AD:
if traffic == self.BRIDGED:
tx_if = self.subifs[1]
rx_if = self.pg0
src_if = self.subifs[1]
dst_if = self.loop0
else:
tx_if = self.subifs[3]
rx_if = self.pg0
src_if = self.subifs[3]
dst_if = self.loop0
else:
return
test_dict = self.create_stream(
mac_type,
ip_type,
packets,
src_if,
dst_if,
traffic,
is_ip6,
tags=permit_tags,
)
if apply_rules:
if isMACIP:
self.acl = VppMacipAcl(self, rules=test_dict["macip_rules"])
else:
self.acl = VppAcl(self, rules=test_dict["acl_rules"])
self.acl.add_vpp_config()
if isMACIP:
self.acl_if = VppMacipAclInterface(
self, sw_if_index=tx_if.sw_if_index, acls=[self.acl]
)
self.acl_if.add_vpp_config()
dump = self.acl_if.dump()
self.assertTrue(dump)
self.assertEqual(dump[0].acls[0], self.acl.acl_index)
else:
self.acl_if = VppAclInterface(
self, sw_if_index=tx_if.sw_if_index, n_input=1, acls=[self.acl]
)
self.acl_if.add_vpp_config()
else:
if hasattr(self, "acl_if"):
self.acl_if.remove_vpp_config()
if try_replace and hasattr(self, "acl"):
if isMACIP:
self.acl.modify_vpp_config(test_dict["macip_rules"])
else:
self.acl.modify_vpp_config(test_dict["acl_rules"])
if not isinstance(src_if, VppSubInterface):
tx_if.add_stream(test_dict["stream"])
else:
tx_if.parent.add_stream(test_dict["stream"])
self.pg_enable_capture(self.pg_interfaces)
self.pg_start()
if do_not_expected_capture:
rx_if.get_capture(0)
else:
if (
traffic == self.BRIDGED
and mac_type == self.WILD_MAC
and ip_type == self.WILD_IP
):
capture = rx_if.get_capture(packets)
else:
capture = rx_if.get_capture(
self.get_packet_count_for_if_idx(dst_if.sw_if_index)
)
self.verify_capture(test_dict["stream"], capture, is_ip6)
if not isMACIP:
if hasattr(self, "acl_if"):
self.acl_if.remove_vpp_config()
if hasattr(self, "acl"):
self.acl.remove_vpp_config()
def run_test_acls(
self, mac_type, ip_type, acl_count, rules_count, traffic=None, ip=None
):
self.apply_macip_rules(
self.create_rules(mac_type, ip_type, acl_count, rules_count)
)
self.verify_macip_acls(acl_count, rules_count)
if traffic is not None:
self.run_traffic(self.EXACT_MAC, self.EXACT_IP, traffic, ip, 9)
class TestMACIP_IP4(MethodHolder):
"""MACIP with IP4 traffic"""
@classmethod
def setUpClass(cls):
super(TestMACIP_IP4, cls).setUpClass()
@classmethod
def tearDownClass(cls):
super(TestMACIP_IP4, cls).tearDownClass()
def test_acl_bridged_ip4_exactMAC_exactIP(self):
"""IP4 MACIP exactMAC|exactIP ACL bridged traffic"""
self.run_traffic(self.EXACT_MAC, self.EXACT_IP, self.BRIDGED, self.IS_IP4, 9)
def test_acl_bridged_ip4_exactMAC_subnetIP(self):
"""IP4 MACIP exactMAC|subnetIP ACL bridged traffic"""
self.run_traffic(self.EXACT_MAC, self.SUBNET_IP, self.BRIDGED, self.IS_IP4, 9)
def test_acl_bridged_ip4_exactMAC_wildIP(self):
"""IP4 MACIP exactMAC|wildIP ACL bridged traffic"""
self.run_traffic(self.EXACT_MAC, self.WILD_IP, self.BRIDGED, self.IS_IP4, 9)
def test_acl_bridged_ip4_ouiMAC_exactIP(self):
"""IP4 MACIP ouiMAC|exactIP ACL bridged traffic"""
self.run_traffic(self.OUI_MAC, self.EXACT_IP, self.BRIDGED, self.IS_IP4, 3)
def test_acl_bridged_ip4_ouiMAC_subnetIP(self):
"""IP4 MACIP ouiMAC|subnetIP ACL bridged traffic"""
self.run_traffic(self.OUI_MAC, self.SUBNET_IP, self.BRIDGED, self.IS_IP4, 9)
def test_acl_bridged_ip4_ouiMAC_wildIP(self):
"""IP4 MACIP ouiMAC|wildIP ACL bridged traffic"""
self.run_traffic(self.OUI_MAC, self.WILD_IP, self.BRIDGED, self.IS_IP4, 9)
def test_ac_bridgedl_ip4_wildMAC_exactIP(self):
"""IP4 MACIP wildcardMAC|exactIP ACL bridged traffic"""
self.run_traffic(self.WILD_MAC, self.EXACT_IP, self.BRIDGED, self.IS_IP4, 9)
def test_acl_bridged_ip4_wildMAC_subnetIP(self):
"""IP4 MACIP wildcardMAC|subnetIP ACL bridged traffic"""
self.run_traffic(self.WILD_MAC, self.SUBNET_IP, self.BRIDGED, self.IS_IP4, 9)
def test_acl_bridged_ip4_wildMAC_wildIP(self):
"""IP4 MACIP wildcardMAC|wildIP ACL bridged traffic"""
self.run_traffic(self.WILD_MAC, self.WILD_IP, self.BRIDGED, self.IS_IP4, 9)
def test_acl_routed_ip4_exactMAC_exactIP(self):
"""IP4 MACIP exactMAC|exactIP ACL routed traffic"""
self.run_traffic(self.EXACT_MAC, self.EXACT_IP, self.ROUTED, self.IS_IP4, 9)
def test_acl_routed_ip4_exactMAC_subnetIP(self):
"""IP4 MACIP exactMAC|subnetIP ACL routed traffic"""
self.run_traffic(self.EXACT_MAC, self.SUBNET_IP, self.ROUTED, self.IS_IP4, 9)
def test_acl_routed_ip4_exactMAC_wildIP(self):
"""IP4 MACIP exactMAC|wildIP ACL routed traffic"""
self.run_traffic(self.EXACT_MAC, self.WILD_IP, self.ROUTED, self.IS_IP4, 9)
def test_acl_routed_ip4_ouiMAC_exactIP(self):
"""IP4 MACIP ouiMAC|exactIP ACL routed traffic"""
self.run_traffic(self.OUI_MAC, self.EXACT_IP, self.ROUTED, self.IS_IP4, 9)
def test_acl_routed_ip4_ouiMAC_subnetIP(self):
"""IP4 MACIP ouiMAC|subnetIP ACL routed traffic"""
self.run_traffic(self.OUI_MAC, self.SUBNET_IP, self.ROUTED, self.IS_IP4, 9)
def test_acl_routed_ip4_ouiMAC_wildIP(self):
"""IP4 MACIP ouiMAC|wildIP ACL routed traffic"""
self.run_traffic(self.OUI_MAC, self.WILD_IP, self.ROUTED, self.IS_IP4, 9)
def test_acl_routed_ip4_wildMAC_exactIP(self):
"""IP4 MACIP wildcardMAC|exactIP ACL routed traffic"""
self.run_traffic(self.WILD_MAC, self.EXACT_IP, self.ROUTED, self.IS_IP4, 9)
def test_acl_routed_ip4_wildMAC_subnetIP(self):
"""IP4 MACIP wildcardMAC|subnetIP ACL routed traffic"""
self.run_traffic(self.WILD_MAC, self.SUBNET_IP, self.ROUTED, self.IS_IP4, 9)
def test_acl_routed_ip4_wildMAC_wildIP(self):
"""IP4 MACIP wildcardMAC|wildIP ACL"""
self.run_traffic(self.WILD_MAC, self.WILD_IP, self.ROUTED, self.IS_IP4, 9)
def test_acl_replace_traffic_ip4(self):
"""MACIP replace ACL with IP4 traffic"""
self.run_traffic(
self.OUI_MAC, self.SUBNET_IP, self.BRIDGED, self.IS_IP4, 9, try_replace=True
)
self.run_traffic(
self.EXACT_MAC,
self.EXACT_IP,
self.BRIDGED,
self.IS_IP4,
9,
try_replace=True,
)
class TestMACIP_IP6(MethodHolder):
"""MACIP with IP6 traffic"""
@classmethod
def setUpClass(cls):
super(TestMACIP_IP6, cls).setUpClass()
@classmethod
def tearDownClass(cls):
super(TestMACIP_IP6, cls).tearDownClass()
def test_acl_bridged_ip6_exactMAC_exactIP(self):
"""IP6 MACIP exactMAC|exactIP ACL bridged traffic"""
self.run_traffic(self.EXACT_MAC, self.EXACT_IP, self.BRIDGED, self.IS_IP6, 9)
def test_acl_bridged_ip6_exactMAC_subnetIP(self):
"""IP6 MACIP exactMAC|subnetIP ACL bridged traffic"""
self.run_traffic(self.EXACT_MAC, self.SUBNET_IP, self.BRIDGED, self.IS_IP6, 9)
def test_acl_bridged_ip6_exactMAC_wildIP(self):
"""IP6 MACIP exactMAC|wildIP ACL bridged traffic"""
self.run_traffic(self.EXACT_MAC, self.WILD_IP, self.BRIDGED, self.IS_IP6, 9)
def test_acl_bridged_ip6_ouiMAC_exactIP(self):
"""IP6 MACIP oui_MAC|exactIP ACL bridged traffic"""
self.run_traffic(self.OUI_MAC, self.EXACT_IP, self.BRIDGED, self.IS_IP6, 9)
def test_acl_bridged_ip6_ouiMAC_subnetIP(self):
"""IP6 MACIP ouiMAC|subnetIP ACL bridged traffic"""
self.run_traffic(self.OUI_MAC, self.SUBNET_IP, self.BRIDGED, self.IS_IP6, 9)
def test_acl_bridged_ip6_ouiMAC_wildIP(self):
"""IP6 MACIP ouiMAC|wildIP ACL bridged traffic"""
self.run_traffic(self.OUI_MAC, self.WILD_IP, self.BRIDGED, self.IS_IP6, 9)
def test_acl_bridged_ip6_wildMAC_exactIP(self):
"""IP6 MACIP wildcardMAC|exactIP ACL bridged traffic"""
self.run_traffic(self.WILD_MAC, self.EXACT_IP, self.BRIDGED, self.IS_IP6, 9)
def test_acl_bridged_ip6_wildMAC_subnetIP(self):
"""IP6 MACIP wildcardMAC|subnetIP ACL bridged traffic"""
self.run_traffic(self.WILD_MAC, self.SUBNET_IP, self.BRIDGED, self.IS_IP6, 9)
def test_acl_bridged_ip6_wildMAC_wildIP(self):
"""IP6 MACIP wildcardMAC|wildIP ACL bridged traffic"""
self.run_traffic(self.WILD_MAC, self.WILD_IP, self.BRIDGED, self.IS_IP6, 9)
def test_acl_routed_ip6_exactMAC_exactIP(self):
"""IP6 MACIP exactMAC|exactIP ACL routed traffic"""
self.run_traffic(self.EXACT_MAC, self.EXACT_IP, self.ROUTED, self.IS_IP6, 9)
def test_acl_routed_ip6_exactMAC_subnetIP(self):
"""IP6 MACIP exactMAC|subnetIP ACL routed traffic"""
self.run_traffic(self.EXACT_MAC, self.SUBNET_IP, self.ROUTED, self.IS_IP6, 9)
def test_acl_routed_ip6_exactMAC_wildIP(self):
"""IP6 MACIP exactMAC|wildIP ACL routed traffic"""
self.run_traffic(self.EXACT_MAC, self.WILD_IP, self.ROUTED, self.IS_IP6, 9)
def test_acl_routed_ip6_ouiMAC_exactIP(self):
"""IP6 MACIP ouiMAC|exactIP ACL routed traffic"""
self.run_traffic(self.OUI_MAC, self.EXACT_IP, self.ROUTED, self.IS_IP6, 9)
def test_acl_routed_ip6_ouiMAC_subnetIP(self):
"""IP6 MACIP ouiMAC|subnetIP ACL routed traffic"""
self.run_traffic(self.OUI_MAC, self.SUBNET_IP, self.ROUTED, self.IS_IP6, 9)
def test_acl_routed_ip6_ouiMAC_wildIP(self):
"""IP6 MACIP ouiMAC|wildIP ACL routed traffic"""
self.run_traffic(self.OUI_MAC, self.WILD_IP, self.ROUTED, self.IS_IP6, 9)
def test_acl_routed_ip6_wildMAC_exactIP(self):
"""IP6 MACIP wildcardMAC|exactIP ACL routed traffic"""
self.run_traffic(self.WILD_MAC, self.EXACT_IP, self.ROUTED, self.IS_IP6, 9)
def test_acl_routed_ip6_wildMAC_subnetIP(self):
"""IP6 MACIP wildcardMAC|subnetIP ACL routed traffic"""
self.run_traffic(self.WILD_MAC, self.SUBNET_IP, self.ROUTED, self.IS_IP6, 9)
def test_acl_routed_ip6_wildMAC_wildIP(self):
"""IP6 MACIP wildcardMAC|wildIP ACL"""
self.run_traffic(self.WILD_MAC, self.WILD_IP, self.ROUTED, self.IS_IP6, 9)
def test_acl_replace_traffic_ip6(self):
"""MACIP replace ACL with IP6 traffic"""
self.run_traffic(
self.OUI_MAC, self.SUBNET_IP, self.BRIDGED, self.IS_IP6, 9, try_replace=True
)
self.run_traffic(
self.EXACT_MAC,
self.EXACT_IP,
self.BRIDGED,
self.IS_IP6,
9,
try_replace=True,
)
class TestMACIP(MethodHolder):
"""MACIP Tests"""
@classmethod
def setUpClass(cls):
super(TestMACIP, cls).setUpClass()
@classmethod
def tearDownClass(cls):
super(TestMACIP, cls).tearDownClass()
def test_acl_1_2(self):
"""MACIP ACL with 2 entries"""
self.run_test_acls(self.EXACT_MAC, self.WILD_IP, 1, [2])
def test_acl_1_5(self):
"""MACIP ACL with 5 entries"""
self.run_test_acls(self.EXACT_MAC, self.SUBNET_IP, 1, [5])
def test_acl_1_10(self):
"""MACIP ACL with 10 entries"""
self.run_test_acls(self.EXACT_MAC, self.EXACT_IP, 1, [10])
def test_acl_1_20(self):
"""MACIP ACL with 20 entries"""
self.run_test_acls(self.OUI_MAC, self.WILD_IP, 1, [20])
def test_acl_1_50(self):
"""MACIP ACL with 50 entries"""
self.run_test_acls(self.OUI_MAC, self.SUBNET_IP, 1, [50])
def test_acl_1_100(self):
"""MACIP ACL with 100 entries"""
self.run_test_acls(self.OUI_MAC, self.EXACT_IP, 1, [100])
def test_acl_2_X(self):
"""MACIP 2 ACLs each with 100+ entries"""
self.run_test_acls(self.OUI_MAC, self.SUBNET_IP, 2, [100, 200])
def test_acl_10_X(self):
"""MACIP 10 ACLs each with 100+ entries"""
self.run_test_acls(
self.EXACT_MAC,
self.EXACT_IP,
10,
[100, 120, 140, 160, 180, 200, 210, 220, 230, 240],
)
def test_acl_10_X_traffic_ip4(self):
"""MACIP 10 ACLs each with 100+ entries with IP4 traffic"""
self.run_test_acls(
self.EXACT_MAC,
self.EXACT_IP,
10,
[100, 120, 140, 160, 180, 200, 210, 220, 230, 240],
self.BRIDGED,
self.IS_IP4,
)
def test_acl_10_X_traffic_ip6(self):
"""MACIP 10 ACLs each with 100+ entries with IP6 traffic"""
self.run_test_acls(
self.EXACT_MAC,
self.EXACT_IP,
10,
[100, 120, 140, 160, 180, 200, 210, 220, 230, 240],
self.BRIDGED,
self.IS_IP6,
)
def test_acl_replace(self):
"""MACIP replace ACL"""
r1 = self.create_rules(acl_count=3, rules_count=[2, 2, 2])
r2 = self.create_rules(mac_type=self.OUI_MAC, ip_type=self.SUBNET_IP)
macip_acls = self.apply_macip_rules(r1)
acls_before = self.macip_acl_dump_debug()
# replace acls #2, #3 with new
macip_acls[2].modify_vpp_config(r2[0])
macip_acls[3].modify_vpp_config(r2[1])
acls_after = self.macip_acl_dump_debug()
# verify changes
self.assertEqual(len(acls_before), len(acls_after))
for acl1, acl2 in zip(
acls_before[:2] + acls_before[4:], acls_after[:2] + acls_after[4:]
):
self.assertEqual(len(acl1), len(acl2))
self.assertEqual(len(acl1.r), len(acl2.r))
for r1, r2 in zip(acl1.r, acl2.r):
self.assertEqual(len(acl1.r), len(acl2.r))
self.assertEqual(acl1.r, acl2.r)
for acl1, acl2 in zip(acls_before[2:4], acls_after[2:4]):
self.assertEqual(len(acl1), len(acl2))
self.assertNotEqual(len(acl1.r), len(acl2.r))
for r1, r2 in zip(acl1.r, acl2.r):
self.assertNotEqual(len(acl1.r), len(acl2.r))
self.assertNotEqual(acl1.r, acl2.r)
def test_delete_intf(self):
"""MACIP ACL delete intf with acl"""
intf_count = len(self.interfaces) + 1
intf = []
macip_alcs = self.apply_macip_rules(
self.create_rules(acl_count=3, rules_count=[3, 5, 4])
)
intf.append(VppLoInterface(self))
intf.append(VppLoInterface(self))
sw_if_index0 = intf[0].sw_if_index
macip_acl_if0 = VppMacipAclInterface(
self, sw_if_index=sw_if_index0, acls=[macip_alcs[1]]
)
macip_acl_if0.add_vpp_config()
reply = self.vapi.macip_acl_interface_get()
self.assertEqual(reply.count, intf_count + 1)
self.assertEqual(reply.acls[sw_if_index0], 1)
sw_if_index1 = intf[1].sw_if_index
macip_acl_if1 = VppMacipAclInterface(
self, sw_if_index=sw_if_index1, acls=[macip_alcs[0]]
)
macip_acl_if1.add_vpp_config()
reply = self.vapi.macip_acl_interface_get()
self.assertEqual(reply.count, intf_count + 2)
self.assertEqual(reply.acls[sw_if_index1], 0)
intf[0].remove_vpp_config()
reply = self.vapi.macip_acl_interface_get()
self.assertEqual(reply.count, intf_count + 2)
self.assertEqual(reply.acls[sw_if_index0], 4294967295)
self.assertEqual(reply.acls[sw_if_index1], 0)
intf.append(VppLoInterface(self))
intf.append(VppLoInterface(self))
sw_if_index2 = intf[2].sw_if_index
sw_if_index3 = intf[3].sw_if_index
macip_acl_if2 = VppMacipAclInterface(
self, sw_if_index=sw_if_index2, acls=[macip_alcs[1]]
)
macip_acl_if2.add_vpp_config()
macip_acl_if3 = VppMacipAclInterface(
self, sw_if_index=sw_if_index3, acls=[macip_alcs[1]]
)
macip_acl_if3.add_vpp_config()
reply = self.vapi.macip_acl_interface_get()
self.assertEqual(reply.count, intf_count + 3)
self.assertEqual(reply.acls[sw_if_index1], 0)
self.assertEqual(reply.acls[sw_if_index2], 1)
self.assertEqual(reply.acls[sw_if_index3], 1)
self.logger.info("MACIP ACL on multiple interfaces:")
self.logger.info(self.vapi.ppcli("sh acl-plugin macip acl"))
self.logger.info(self.vapi.ppcli("sh acl-plugin macip acl index 1234"))
self.logger.info(self.vapi.ppcli("sh acl-plugin macip acl index 1"))
self.logger.info(self.vapi.ppcli("sh acl-plugin macip acl index 0"))
self.logger.info(self.vapi.ppcli("sh acl-plugin macip interface"))
intf[2].remove_vpp_config()
intf[1].remove_vpp_config()
reply = self.vapi.macip_acl_interface_get()
self.assertEqual(reply.count, intf_count + 3)
self.assertEqual(reply.acls[sw_if_index0], 4294967295)
self.assertEqual(reply.acls[sw_if_index1], 4294967295)
self.assertEqual(reply.acls[sw_if_index2], 4294967295)
self.assertEqual(reply.acls[sw_if_index3], 1)
intf[3].remove_vpp_config()
reply = self.vapi.macip_acl_interface_get()
self.assertEqual(len([x for x in reply.acls if x != 4294967295]), 0)
class TestACL_dot1q_bridged(MethodHolder):
"""ACL on dot1q bridged subinterfaces Tests"""
@classmethod
def setUpClass(cls):
super(TestACL_dot1q_bridged, cls).setUpClass()
@classmethod
def tearDownClass(cls):
super(TestACL_dot1q_bridged, cls).tearDownClass()
def test_acl_bridged_ip4_subif_dot1q(self):
"""IP4 ACL SubIf Dot1Q bridged traffic"""
self.run_traffic(
self.EXACT_MAC,
self.EXACT_IP,
self.BRIDGED,
self.IS_IP4,
9,
tags=self.DOT1Q,
isMACIP=False,
)
def test_acl_bridged_ip6_subif_dot1q(self):
"""IP6 ACL SubIf Dot1Q bridged traffic"""
self.run_traffic(
self.EXACT_MAC,
self.EXACT_IP,
self.BRIDGED,
self.IS_IP6,
9,
tags=self.DOT1Q,
isMACIP=False,
)
class TestACL_dot1ad_bridged(MethodHolder):
"""ACL on dot1ad bridged subinterfaces Tests"""
@classmethod
def setUpClass(cls):
super(TestACL_dot1ad_bridged, cls).setUpClass()
@classmethod
def tearDownClass(cls):
super(TestACL_dot1ad_bridged, cls).tearDownClass()
def test_acl_bridged_ip4_subif_dot1ad(self):
"""IP4 ACL SubIf Dot1AD bridged traffic"""
self.run_traffic(
self.EXACT_MAC,
self.EXACT_IP,
self.BRIDGED,
self.IS_IP4,
9,
tags=self.DOT1AD,
isMACIP=False,
)
def test_acl_bridged_ip6_subif_dot1ad(self):
"""IP6 ACL SubIf Dot1AD bridged traffic"""
self.run_traffic(
self.EXACT_MAC,
self.EXACT_IP,
self.BRIDGED,
self.IS_IP6,
9,
tags=self.DOT1AD,
isMACIP=False,
)
class TestACL_dot1q_routed(MethodHolder):
"""ACL on dot1q routed subinterfaces Tests"""
@classmethod
def setUpClass(cls):
super(TestACL_dot1q_routed, cls).setUpClass()
@classmethod
def tearDownClass(cls):
super(TestACL_dot1q_routed, cls).tearDownClass()
def test_acl_routed_ip4_subif_dot1q(self):
"""IP4 ACL SubIf Dot1Q routed traffic"""
self.run_traffic(
self.EXACT_MAC,
self.EXACT_IP,
self.ROUTED,
self.IS_IP4,
9,
tags=self.DOT1Q,
isMACIP=False,
)
def test_acl_routed_ip6_subif_dot1q(self):
"""IP6 ACL SubIf Dot1Q routed traffic"""
self.run_traffic(
self.EXACT_MAC,
self.EXACT_IP,
self.ROUTED,
self.IS_IP6,
9,
tags=self.DOT1Q,
isMACIP=False,
)
def test_acl_routed_ip4_subif_dot1q_deny_by_tags(self):
"""IP4 ACL SubIf wrong tags Dot1Q routed traffic"""
self.run_traffic(
self.EXACT_MAC,
self.EXACT_IP,
self.ROUTED,
self.IS_IP4,
9,
True,
tags=self.DOT1Q,
isMACIP=False,
permit_tags=self.DENY_TAGS,
)
def test_acl_routed_ip6_subif_dot1q_deny_by_tags(self):
"""IP6 ACL SubIf wrong tags Dot1Q routed traffic"""
self.run_traffic(
self.EXACT_MAC,
self.EXACT_IP,
self.ROUTED,
self.IS_IP6,
9,
True,
tags=self.DOT1Q,
isMACIP=False,
permit_tags=self.DENY_TAGS,
)
class TestACL_dot1ad_routed(MethodHolder):
"""ACL on dot1ad routed subinterfaces Tests"""
@classmethod
def setUpClass(cls):
super(TestACL_dot1ad_routed, cls).setUpClass()
@classmethod
def tearDownClass(cls):
super(TestACL_dot1ad_routed, cls).tearDownClass()
def test_acl_routed_ip6_subif_dot1ad(self):
"""IP6 ACL SubIf Dot1AD routed traffic"""
self.run_traffic(
self.EXACT_MAC,
self.EXACT_IP,
self.ROUTED,
self.IS_IP6,
9,
tags=self.DOT1AD,
isMACIP=False,
)
def test_acl_routed_ip4_subif_dot1ad(self):
"""IP4 ACL SubIf Dot1AD routed traffic"""
self.run_traffic(
self.EXACT_MAC,
self.EXACT_IP,
self.ROUTED,
self.IS_IP4,
9,
tags=self.DOT1AD,
isMACIP=False,
)
def test_acl_routed_ip6_subif_dot1ad_deny_by_tags(self):
"""IP6 ACL SubIf wrong tags Dot1AD routed traffic"""
self.run_traffic(
self.EXACT_MAC,
self.EXACT_IP,
self.ROUTED,
self.IS_IP6,
9,
True,
tags=self.DOT1AD,
isMACIP=False,
permit_tags=self.DENY_TAGS,
)
def test_acl_routed_ip4_subif_dot1ad_deny_by_tags(self):
"""IP4 ACL SubIf wrong tags Dot1AD routed traffic"""
self.run_traffic(
self.EXACT_MAC,
self.EXACT_IP,
self.ROUTED,
self.IS_IP4,
9,
True,
tags=self.DOT1AD,
isMACIP=False,
permit_tags=self.DENY_TAGS,
)
if __name__ == "__main__":
unittest.main(testRunner=VppTestRunner)
|
