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/*
 *------------------------------------------------------------------
 * Copyright (c) 2009 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.
 *------------------------------------------------------------------
 */

#ifndef included_vlibmemory_api_common_h
#define included_vlibmemory_api_common_h

#include <svm/svm_common.h>
#include <vlibapi/api.h>
#include <vlibmemory/memory_api.h>
#include <vlibmemory/memory_client.h>
#include <vlibmemory/socket_api.h>
#include <vlibmemory/socket_client.h>

void vl_api_rpc_call_main_thread (void *fp, u8 * data, u32 data_length);
u16 vl_client_get_first_plugin_msg_id (const char *plugin_name);
void vl_api_send_pending_rpc_requests (vlib_main_t * vm);
u8 *vl_api_serialize_message_table (api_main_t * am, u8 * vector);

always_inline void
vl_api_send_msg (vl_api_registration_t * rp, u8 * elem)
{
  if (PREDICT_FALSE (rp->registration_type > REGISTRATION_TYPE_SHMEM))
    {
      vl_socket_api_send (rp, elem);
    }
  else
    {
      vl_msg_api_send_shmem (rp->vl_input_queue, (u8 *) & elem);
    }
}

always_inline int
vl_api_can_send_msg (vl_api_registration_t * rp)
{
  if (PREDICT_FALSE (rp->registration_type > REGISTRATION_TYPE_SHMEM))
    return 1;
  else
    return vl_mem_api_can_send (rp->vl_input_queue);
}

always_inline vl_api_registration_t *
vl_api_client_index_to_registration (u32 index)
{
  if (PREDICT_FALSE (socket_main.current_rp != 0))
    return socket_main.current_rp;

  return (vl_mem_api_client_index_to_registration (index));
}

always_inline u32
vl_api_registration_file_index (vl_api_registration_t * reg)
{
  return reg->clib_file_index;
}

always_inline clib_file_t *
vl_api_registration_file (vl_api_registration_t * reg)
{
  return clib_file_get (&file_main, vl_api_registration_file_index (reg));
}

always_inline void
vl_api_registration_del_file (vl_api_registration_t * reg)
{
  clib_file_t *cf = vl_api_registration_file (reg);
  if (cf)
    clib_file_del (&file_main, cf);
}

always_inline clib_error_t *
vl_api_send_fd_msg (vl_api_registration_t * reg, int fd_to_send)
{
  clib_file_t *cf = vl_api_registration_file (reg);
  if (cf)
    return vl_sock_api_send_fd_msg (cf->file_descriptor, fd_to_send);
  return 0;
}

always_inline clib_error_t *
vl_api_recv_fd_msg (vl_api_registration_t * reg, int *fd_to_recv, u32 wait)
{
  clib_file_t *cf = vl_api_registration_file (reg);
  if (cf)
    return vl_sock_api_recv_fd_msg (cf->file_descriptor, fd_to_recv, wait);
  return 0;
}

/*
 * vl_api_clnt process data used by transports (socket api in particular)
 */
extern vlib_node_registration_t vl_api_clnt_node;
extern volatile int **vl_api_queue_cursizes;

typedef enum vl_api_clnt_process_events
{
  QUEUE_SIGNAL_EVENT = 1,
  SOCKET_READ_EVENT
} vl_api_clnt_process_events_t;

#define foreach_histogram_bucket                \
_(400)                                          \
_(200)                                          \
_(100)                                          \
_(10)

typedef enum
{
#define _(n) SLEEP_##n##_US,
  foreach_histogram_bucket
#undef _
    SLEEP_N_BUCKETS,
} histogram_index_t;

extern u64 vector_rate_histogram[];

/*
 * sockclnt APIs XXX are these actually used anywhere?
 */
vl_api_registration_t *sockclnt_get_registration (u32 index);
void socksvr_add_pending_output (struct clib_file *uf,
				 struct vl_api_registration_ *cf,
				 u8 * buffer, uword buffer_bytes);
void vl_socket_process_msg (struct clib_file *uf,
			    struct vl_api_registration_ *rp, i8 * input_v);
u32 sockclnt_open_index (char *client_name, char *hostname, int port);
void sockclnt_close_index (u32 index);
void vl_client_msg_api_send (vl_api_registration_t * cm, u8 * elem);

#endif /* included_vlibmemory_api_common_h */

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#!/usr/bin/env python3

import unittest
import binascii
from socket import AF_INET6

from framework import VppTestCase, VppTestRunner
from vpp_ip_route import VppIpRoute, VppRoutePath, FibPathProto, VppIpTable
from vpp_srv6 import SRv6LocalSIDBehaviors, VppSRv6LocalSID, VppSRv6Policy, \
    SRv6PolicyType, VppSRv6Steering, SRv6PolicySteeringTypes

import scapy.compat
from scapy.packet import Raw
from scapy.layers.l2 import Ether, Dot1Q
from scapy.layers.inet6 import IPv6, UDP, IPv6ExtHdrSegmentRouting
from scapy.layers.inet import IP, UDP

from util import ppp


class TestSRv6(VppTestCase):
    """ SRv6 Static Proxy plugin Test Case """

    @classmethod
    def setUpClass(self):
        super(TestSRv6, self).setUpClass()

    @classmethod
    def tearDownClass(cls):
        super(TestSRv6, cls).tearDownClass()

    def setUp(self):
        """ Perform test setup before each test case.
        """
        super(TestSRv6, self).setUp()

        # packet sizes, inclusive L2 overhead
        self.pg_packet_sizes = [64, 512, 1518, 9018]

        # reset packet_infos
        self.reset_packet_infos()

    def tearDown(self):
        """ Clean up test setup after each test case.
        """
        self.teardown_interfaces()

        super(TestSRv6, self).tearDown()

    def configure_interface(self,
                            interface,
                            ipv6=False, ipv4=False,
                            ipv6_table_id=0, ipv4_table_id=0):
        """ Configure interface.
        :param ipv6: configure IPv6 on interface
        :param ipv4: configure IPv4 on interface
        :param ipv6_table_id: FIB table_id for IPv6
        :param ipv4_table_id: FIB table_id for IPv4
        """
        self.logger.debug("Configuring interface %s" % (interface.name))
        if ipv6:
            self.logger.debug("Configuring IPv6")
            interface.set_table_ip6(ipv6_table_id)
            interface.config_ip6()
            interface.resolve_ndp(timeout=5)
        if ipv4:
            self.logger.debug("Configuring IPv4")
            interface.set_table_ip4(ipv4_table_id)
            interface.config_ip4()
            interface.resolve_arp()
        interface.admin_up()

    def setup_interfaces(self, ipv6=[], ipv4=[],
                         ipv6_table_id=[], ipv4_table_id=[]):
        """ Create and configure interfaces.

        :param ipv6: list of interface IPv6 capabilities
        :param ipv4: list of interface IPv4 capabilities
        :param ipv6_table_id: list of intf IPv6 FIB table_ids
        :param ipv4_table_id: list of intf IPv4 FIB table_ids
        :returns: List of created interfaces.
        """
        # how many interfaces?
        if len(ipv6):
            count = len(ipv6)
        else:
            count = len(ipv4)
        self.logger.debug("Creating and configuring %d interfaces" % (count))

        # fill up ipv6 and ipv4 lists if needed
        # not enabled (False) is the default
        if len(ipv6) < count:
            ipv6 += (count - len(ipv6)) * [False]
        if len(ipv4) < count:
            ipv4 += (count - len(ipv4)) * [False]

        # fill up table_id lists if needed
        # table_id 0 (global) is the default
        if len(ipv6_table_id) < count:
            ipv6_table_id += (count - len(ipv6_table_id)) * [0]
        if len(ipv4_table_id) < count:
            ipv4_table_id += (count - len(ipv4_table_id)) * [0]

        # create 'count' pg interfaces
        self.create_pg_interfaces(range(count))

        # setup all interfaces
        for i in range(count):
            intf = self.pg_interfaces[i]
            self.configure_interface(intf,
                                     ipv6[i], ipv4[i],
                                     ipv6_table_id[i], ipv4_table_id[i])

        if any(ipv6):
            self.logger.debug(self.vapi.cli("show ip6 neighbors"))
        if any(ipv4):
            self.logger.debug(self.vapi.cli("show ip4 neighbors"))
        self.logger.debug(self.vapi.cli("show interface"))
        self.logger.debug(self.vapi.cli("show hardware"))

        return self.pg_interfaces

    def teardown_interfaces(self):
        """ Unconfigure and bring down interface.
        """
        self.logger.debug("Tearing down interfaces")
        # tear down all interfaces
        # AFAIK they cannot be deleted
        for i in self.pg_interfaces:
            self.logger.debug("Tear down interface %s" % (i.name))
            i.admin_down()
            i.unconfig()
            i.set_table_ip4(0)
            i.set_table_ip6(0)

    def test_SRv6_End_AS_IPv6_noSRH(self):
        """ Test SRv6 End.AS behavior with IPv6 traffic and no SRH rewrite.
        """
        self.run_SRv6_End_AS_IPv6(
            sid_list=['a1::', 'a2::a6', 'a3::'],
            test_sid_index=1,
            rewrite_src_addr='a2::')

    def test_SRv6_End_AS_IPv6_SRH(self):
        """ Test SRv6 End.AS behavior with IPv6 traffic and SRH rewrite.
        """
        self.run_SRv6_End_AS_IPv6(
            sid_list=['a1::a6', 'a2::', 'a3::'],
            test_sid_index=0,
            rewrite_src_addr='a1::')

    def test_SRv6_End_AS_IPv4_noSRH(self):
        """ Test SRv6 End.AS behavior with IPv4 traffic and no SRH rewrite.
        """
        self.run_SRv6_End_AS_IPv4(
            sid_list=['a1::', 'a2::a6', 'a3::'],
            test_sid_index=1,
            rewrite_src_addr='a2::')

    def test_SRv6_End_AS_IPv4_SRH(self):
        """ Test SRv6 End.AS behavior with IPv4 traffic and SRH rewrite.
        """
        self.run_SRv6_End_AS_IPv4(
            sid_list=['a1::a6', 'a2::', 'a3::'],
            test_sid_index=0,
            rewrite_src_addr='a1::')

    def test_SRv6_End_AS_L2_noSRH(self):
        """ Test SRv6 End.AS behavior with L2 traffic and no SRH rewrite.
        """
        self.run_SRv6_End_AS_L2(
            sid_list=['a1::', 'a2::a6', 'a3::'],
            test_sid_index=1,
            rewrite_src_addr='a2::')

    def test_SRv6_End_AS_L2_SRH(self):
        """ Test SRv6 End.AS behavior with L2 traffic and SRH rewrite.
        """
        self.run_SRv6_End_AS_L2(
            sid_list=['a1::a6', 'a2::', 'a3::'],
            test_sid_index=0,
            rewrite_src_addr='a1::')

    def run_SRv6_End_AS_L2(self, sid_list, test_sid_index, rewrite_src_addr):
        """ Run SRv6 End.AS test with L2 traffic.
        """
        self.rewrite_src_addr = rewrite_src_addr
        self.rewrite_sid_list = sid_list[test_sid_index + 1::]

        # send traffic to one destination interface
        # source and destination interfaces are IPv6 only
        self.setup_interfaces(ipv6=[True, False])

        # configure route to next segment
        route = VppIpRoute(self, sid_list[test_sid_index + 1], 128,
                           [VppRoutePath(self.pg0.remote_ip6,
                                         self.pg0.sw_if_index)])
        route.add_vpp_config()

        # configure SRv6 localSID behavior
        cli_str = "sr localsid address " + sid_list[test_sid_index] \
            + " behavior end.as" \
            + " oif " + self.pg1.name \
            + " iif " + self.pg1.name \
            + " src " + self.rewrite_src_addr
        for s in self.rewrite_sid_list:
            cli_str += " next " + s
        self.vapi.cli(cli_str)

        # log the localsids
        self.logger.debug(self.vapi.cli("show sr localsid"))

        # send one packet per packet size
        count = len(self.pg_packet_sizes)

        # prepare L2 in SRv6 headers
        packet_header1 = self.create_packet_header_IPv6_SRH_L2(
                        sidlist=sid_list[::-1],
                        segleft=len(sid_list) - test_sid_index - 1,
                        vlan=0)

        # generate packets (pg0->pg1)
        pkts1 = self.create_stream(self.pg0, self.pg1, packet_header1,
                                   self.pg_packet_sizes, count)

        # send packets and verify received packets
        self.send_and_verify_pkts(self.pg0, pkts1, self.pg1,
                                  self.compare_rx_tx_packet_End_AS_L2_out)

        # log the localsid counters
        self.logger.info(self.vapi.cli("show sr localsid"))

        # prepare L2 header for returning packets
        packet_header2 = self.create_packet_header_L2()

        # generate returning packets (pg1->pg0)
        pkts2 = self.create_stream(self.pg1, self.pg0, packet_header2,
                                   self.pg_packet_sizes, count)

        # send packets and verify received packets
        self.send_and_verify_pkts(self.pg1, pkts2, self.pg0,
                                  self.compare_rx_tx_packet_End_AS_L2_in)

        # log the localsid counters
        self.logger.info(self.vapi.cli("show sr localsid"))

        # remove SRv6 localSIDs
        self.vapi.cli("sr localsid del address " + sid_list[test_sid_index])

        # cleanup interfaces
        self.teardown_interfaces()

    def run_SRv6_End_AS_IPv6(self, sid_list, test_sid_index, rewrite_src_addr):
        """ Run SRv6 End.AS test with IPv6 traffic.
        """
        self.rewrite_src_addr = rewrite_src_addr
        self.rewrite_sid_list = sid_list[test_sid_index + 1::]

        # send traffic to one destination interface
        # source and destination interfaces are IPv6 only
        self.setup_interfaces(ipv6=[True, True])

        # configure route to next segment
        route = VppIpRoute(self, sid_list[test_sid_index + 1], 128,
                           [VppRoutePath(self.pg0.remote_ip6,
                                         self.pg0.sw_if_index)])
        route.add_vpp_config()

        # configure SRv6 localSID behavior
        cli_str = "sr localsid address " + sid_list[test_sid_index] \
            + " behavior end.as" \
            + " nh " + self.pg1.remote_ip6 \
            + " oif " + self.pg1.name \
            + " iif " + self.pg1.name \
            + " src " + self.rewrite_src_addr
        for s in self.rewrite_sid_list:
            cli_str += " next " + s
        self.vapi.cli(cli_str)

        # log the localsids
        self.logger.debug(self.vapi.cli("show sr localsid"))

        # send one packet per packet size
        count = len(self.pg_packet_sizes)

        # prepare IPv6 in SRv6 headers
        packet_header1 = self.create_packet_header_IPv6_SRH_IPv6(
                        sidlist=sid_list[::-1],
                        segleft=len(sid_list) - test_sid_index - 1)

        # generate packets (pg0->pg1)
        pkts1 = self.create_stream(self.pg0, self.pg1, packet_header1,
                                   self.pg_packet_sizes, count)

        # send packets and verify received packets
        self.send_and_verify_pkts(self.pg0, pkts1, self.pg1,
                                  self.compare_rx_tx_packet_End_AS_IPv6_out)

        # log the localsid counters
        self.logger.info(self.vapi.cli("show sr localsid"))

        # prepare IPv6 header for returning packets
        packet_header2 = self.create_packet_header_IPv6()

        # generate returning packets (pg1->pg0)
        pkts2 = self.create_stream(self.pg1, self.pg0, packet_header2,
                                   self.pg_packet_sizes, count)

        # send packets and verify received packets
        self.send_and_verify_pkts(self.pg1, pkts2, self.pg0,
                                  self.compare_rx_tx_packet_End_AS_IPv6_in)

        # log the localsid counters
        self.logger.info(self.vapi.cli("show sr localsid"))

        # remove SRv6 localSIDs
        self.vapi.cli("sr localsid del address " + sid_list[test_sid_index])

        # cleanup interfaces
        self.teardown_interfaces()

    def run_SRv6_End_AS_IPv4(self, sid_list, test_sid_index, rewrite_src_addr):
        """ Run SRv6 End.AS test with IPv4 traffic.
        """
        self.rewrite_src_addr = rewrite_src_addr
        self.rewrite_sid_list = sid_list[test_sid_index + 1::]

        # send traffic to one destination interface
        # source and destination interfaces are IPv6 only
        self.setup_interfaces(ipv6=[True, False], ipv4=[True, True])

        # configure route to next segment
        route = VppIpRoute(self, sid_list[test_sid_index + 1], 128,
                           [VppRoutePath(self.pg0.remote_ip6,
                                         self.pg0.sw_if_index)])
        route.add_vpp_config()

        # configure SRv6 localSID behavior
        cli_str = "sr localsid address " + sid_list[test_sid_index] \
            + " behavior end.as" \
            + " nh " + self.pg1.remote_ip4 \
            + " oif " + self.pg1.name \
            + " iif " + self.pg1.name \
            + " src " + self.rewrite_src_addr
        for s in self.rewrite_sid_list:
            cli_str += " next " + s
        self.vapi.cli(cli_str)

        # log the localsids
        self.logger.debug(self.vapi.cli("show sr localsid"))

        # send one packet per packet size
        count = len(self.pg_packet_sizes)

        # prepare IPv4 in SRv6 headers
        packet_header1 = self.create_packet_header_IPv6_SRH_IPv4(
                        sidlist=sid_list[::-1],
                        segleft=len(sid_list) - test_sid_index - 1)

        # generate packets (pg0->pg1)
        pkts1 = self.create_stream(self.pg0, self.pg1, packet_header1,
                                   self.pg_packet_sizes, count)

        # send packets and verify received packets
        self.send_and_verify_pkts(self.pg0, pkts1, self.pg1,
                                  self.compare_rx_tx_packet_End_AS_IPv4_out)

        # log the localsid counters
        self.logger.info(self.vapi.cli("show sr localsid"))

        # prepare IPv6 header for returning packets
        packet_header2 = self.create_packet_header_IPv4()

        # generate returning packets (pg1->pg0)
        pkts2 = self.create_stream(self.pg1, self.pg0, packet_header2,
                                   self.pg_packet_sizes, count)

        # send packets and verify received packets
        self.send_and_verify_pkts(self.pg1, pkts2, self.pg0,
                                  self.compare_rx_tx_packet_End_AS_IPv4_in)

        # log the localsid counters
        self.logger.info(self.vapi.cli("show sr localsid"))

        # remove SRv6 localSIDs
        self.vapi.cli("sr localsid del address " + sid_list[test_sid_index])

        # cleanup interfaces
        self.teardown_interfaces()

    def compare_rx_tx_packet_End_AS_IPv6_in(self, tx_pkt, rx_pkt):
        """ Compare input and output packet after passing End.AS

        :param tx_pkt: transmitted packet
        :param rx_pkt: received packet
        """

        # get first (outer) IPv6 header of rx'ed packet
        rx_ip = rx_pkt.getlayer(IPv6)
        rx_srh = None

        tx_ip = tx_pkt.getlayer(IPv6)

        # expected segment-list (SRH order)
        tx_seglist = self.rewrite_sid_list[::-1]

        # received ip.src should be equal to SR Policy source
        self.assertEqual(rx_ip.src, self.rewrite_src_addr)
        # received ip.dst should be equal to expected sidlist[lastentry]
        self.assertEqual(rx_ip.dst, tx_seglist[-1])

        if len(tx_seglist) > 1:
            # rx'ed packet should have SRH
            self.assertTrue(rx_pkt.haslayer(IPv6ExtHdrSegmentRouting))
            # get SRH
            rx_srh = rx_pkt.getlayer(IPv6ExtHdrSegmentRouting)
            # rx'ed seglist should be equal to expected seglist
            self.assertEqual(rx_srh.addresses, tx_seglist)
            # segleft should be equal to size expected seglist-1
            self.assertEqual(rx_srh.segleft, len(tx_seglist)-1)
            # segleft should be equal to lastentry
            self.assertEqual(rx_srh.segleft, rx_srh.lastentry)
            # get payload
            payload = rx_srh.payload
        else:
            # rx'ed packet should NOT have SRH
            self.assertFalse(rx_pkt.haslayer(IPv6ExtHdrSegmentRouting))
            # get payload
            payload = rx_ip.payload

        # the whole rx'ed pkt beyond SRH should be equal to tx'ed pkt
        # except for the hop-limit field
        #   -> update tx'ed hlim to the expected hlim
        tx_ip.hlim = tx_ip.hlim - 1

        self.assertEqual(payload, tx_ip)

        self.logger.debug("packet verification: SUCCESS")

    def compare_rx_tx_packet_End_AS_IPv4_in(self, tx_pkt, rx_pkt):
        """ Compare input and output packet after passing End.AS

        :param tx_pkt: transmitted packet
        :param rx_pkt: received packet
        """

        # get first (outer) IPv6 header of rx'ed packet
        rx_ip = rx_pkt.getlayer(IPv6)
        rx_srh = None

        tx_ip = tx_pkt.getlayer(IP)

        # expected segment-list (SRH order)
        tx_seglist = self.rewrite_sid_list[::-1]

        # received ip.src should be equal to SR Policy source
        self.assertEqual(rx_ip.src, self.rewrite_src_addr)
        # received ip.dst should be equal to expected sidlist[lastentry]
        self.assertEqual(rx_ip.dst, tx_seglist[-1])

        if len(tx_seglist) > 1:
            # rx'ed packet should have SRH and IPv4 header
            self.assertTrue(rx_pkt.haslayer(IPv6ExtHdrSegmentRouting))
            self.assertTrue(rx_ip.payload.haslayer(IP))
            # get SRH
            rx_srh = rx_pkt.getlayer(IPv6ExtHdrSegmentRouting)
            # rx'ed seglist should be equal to seglist
            self.assertEqual(rx_srh.addresses, tx_seglist)
            # segleft should be equal to size seglist-1
            self.assertEqual(rx_srh.segleft, len(tx_seglist)-1)
            # segleft should be equal to lastentry
            self.assertEqual(rx_srh.segleft, rx_srh.lastentry)
            payload = rx_srh.payload
        else:
            # rx'ed packet should NOT have SRH
            self.assertFalse(rx_pkt.haslayer(IPv6ExtHdrSegmentRouting))
            # get payload
            payload = rx_ip.payload

        # the whole rx'ed pkt beyond SRH should be equal to tx'ed pkt
        # except for the ttl field and ip checksum
        #   -> adjust tx'ed ttl to expected ttl
        tx_ip.ttl = tx_ip.ttl - 1
        #   -> set tx'ed ip checksum to None and let scapy recompute
        tx_ip.chksum = None
        # read back the pkt (with str()) to force computing these fields
        # probably other ways to accomplish this are possible
        tx_ip = IP(scapy.compat.raw(tx_ip))

        self.assertEqual(payload, tx_ip)

        self.logger.debug("packet verification: SUCCESS")

    def compare_rx_tx_packet_End_AS_L2_in(self, tx_pkt, rx_pkt):
        """ Compare input and output packet after passing End.AS

        :param tx_pkt: transmitted packet
        :param rx_pkt: received packet
        """

        # get first (outer) IPv6 header of rx'ed packet
        rx_ip = rx_pkt.getlayer(IPv6)
        rx_srh = None

        tx_ether = tx_pkt.getlayer(Ether)

        # expected segment-list (SRH order)
        tx_seglist = self.rewrite_sid_list[::-1]

        # received ip.src should be equal to SR Policy source
        self.assertEqual(rx_ip.src, self.rewrite_src_addr)
        # received ip.dst should be equal to expected sidlist[lastentry]
        self.assertEqual(rx_ip.dst, tx_seglist[-1])

        if len(tx_seglist) > 1:
            # rx'ed packet should have SRH
            self.assertTrue(rx_pkt.haslayer(IPv6ExtHdrSegmentRouting))
            # get SRH
            rx_srh = rx_pkt.getlayer(IPv6ExtHdrSegmentRouting)
            # rx'ed seglist should be equal to seglist
            self.assertEqual(rx_srh.addresses, tx_seglist)
            # segleft should be equal to size seglist-1
            self.assertEqual(rx_srh.segleft, len(tx_seglist)-1)
            # segleft should be equal to lastentry
            self.assertEqual(rx_srh.segleft, rx_srh.lastentry)
            # nh should be "No Next Header" (143)
            self.assertEqual(rx_srh.nh, 143)
            # get payload
            payload = rx_srh.payload
        else:
            # rx'ed packet should NOT have SRH
            self.assertFalse(rx_pkt.haslayer(IPv6ExtHdrSegmentRouting))
            # get payload
            payload = rx_ip.payload

        # the whole rx'ed pkt beyond SRH should be equal to tx'ed pkt
        self.assertEqual(Ether(scapy.compat.raw(payload)), tx_ether)

        self.logger.debug("packet verification: SUCCESS")

    def compare_rx_tx_packet_End_AS_IPv6_out(self, tx_pkt, rx_pkt):
        """ Compare input and output packet after passing End.AS with IPv6

        :param tx_pkt: transmitted packet
        :param rx_pkt: received packet
        """

        # get first (outer) IPv6 header of rx'ed packet
        rx_ip = rx_pkt.getlayer(IPv6)

        tx_ip = tx_pkt.getlayer(IPv6)
        tx_ip2 = tx_pkt.getlayer(IPv6, 2)

        # verify if rx'ed packet has no SRH
        self.assertFalse(rx_pkt.haslayer(IPv6ExtHdrSegmentRouting))

        # the whole rx_ip pkt should be equal to tx_ip2
        # except for the hlim field
        #   -> adjust tx'ed hlim to expected hlim
        tx_ip2.hlim = tx_ip2.hlim - 1

        self.assertEqual(rx_ip, tx_ip2)

        self.logger.debug("packet verification: SUCCESS")

    def compare_rx_tx_packet_End_AS_IPv4_out(self, tx_pkt, rx_pkt):
        """ Compare input and output packet after passing End.AS with IPv4

        :param tx_pkt: transmitted packet
        :param rx_pkt: received packet
        """

        # get IPv4 header of rx'ed packet
        rx_ip = rx_pkt.getlayer(IP)

        tx_ip = tx_pkt.getlayer(IPv6)
        tx_ip2 = tx_pkt.getlayer(IP)

        # verify if rx'ed packet has no SRH
        self.assertFalse(rx_pkt.haslayer(IPv6ExtHdrSegmentRouting))

        # the whole rx_ip pkt should be equal to tx_ip2
        # except for the ttl field and ip checksum
        #   -> adjust tx'ed ttl to expected ttl
        tx_ip2.ttl = tx_ip2.ttl - 1
        #   -> set tx'ed ip checksum to None and let scapy recompute
        tx_ip2.chksum = None
        # read back the pkt (with str()) to force computing these fields
        # probably other ways to accomplish this are possible
        tx_ip2 = IP(scapy.compat.raw(tx_ip2))

        self.assertEqual(rx_ip, tx_ip2)

        self.logger.debug("packet verification: SUCCESS")

    def compare_rx_tx_packet_End_AS_L2_out(self, tx_pkt, rx_pkt):
        """ Compare input and output packet after passing End.AS with L2

        :param tx_pkt: transmitted packet
        :param rx_pkt: received packet
        """

        # get IPv4 header of rx'ed packet
        rx_eth = rx_pkt.getlayer(Ether)

        tx_ip = tx_pkt.getlayer(IPv6)
        # we can't just get the 2nd Ether layer
        # get the Raw content and dissect it as Ether
        tx_eth1 = Ether(scapy.compat.raw(tx_pkt[Raw]))

        # verify if rx'ed packet has no SRH
        self.assertFalse(rx_pkt.haslayer(IPv6ExtHdrSegmentRouting))

        # the whole rx_eth pkt should be equal to tx_eth1
        self.assertEqual(rx_eth, tx_eth1)

        self.logger.debug("packet verification: SUCCESS")

    def create_stream(self, src_if, dst_if, packet_header, packet_sizes,
                      count):
        """Create SRv6 input packet stream for defined interface.

        :param VppInterface src_if: Interface to create packet stream for
        :param VppInterface dst_if: destination interface of packet stream
        :param packet_header: Layer3 scapy packet headers,
                L2 is added when not provided,
                Raw(payload) with packet_info is added
        :param list packet_sizes: packet stream pckt sizes,sequentially applied
               to packets in stream have
        :param int count: number of packets in packet stream
        :return: list of packets
        """
        self.logger.info("Creating packets")
        pkts = []
        for i in range(0, count-1):
            payload_info = self.create_packet_info(src_if, dst_if)
            self.logger.debug(
                "Creating packet with index %d" % (payload_info.index))
            payload = self.info_to_payload(payload_info)
            # add L2 header if not yet provided in packet_header
            if packet_header.getlayer(0).name == 'Ethernet':
                p = (packet_header /
                     Raw(payload))
            else:
                p = (Ether(dst=src_if.local_mac, src=src_if.remote_mac) /
                     packet_header /
                     Raw(payload))
            size = packet_sizes[i % len(packet_sizes)]
            self.logger.debug("Packet size %d" % (size))
            self.extend_packet(p, size)
            # we need to store the packet with the automatic fields computed
            # read back the dumped packet (with str())
            # to force computing these fields
            # probably other ways are possible
            p = Ether(scapy.compat.raw(p))
            payload_info.data = p.copy()
            self.logger.debug(ppp("Created packet:", p))
            pkts.append(p)
        self.logger.info("Done creating packets")
        return pkts

    def send_and_verify_pkts(self, input, pkts, output, compare_func):
        """Send packets and verify received packets using compare_func

        :param input: ingress interface of DUT
        :param pkts: list of packets to transmit
        :param output: egress interface of DUT
        :param compare_func: function to compare in and out packets
        """
        # add traffic stream to input interface
        input.add_stream(pkts)

        # enable capture on all interfaces
        self.pg_enable_capture(self.pg_interfaces)

        # start traffic
        self.logger.info("Starting traffic")
        self.pg_start()

        # get output capture
        self.logger.info("Getting packet capture")
        capture = output.get_capture()

        # assert nothing was captured on input interface
        # input.assert_nothing_captured()

        # verify captured packets
        self.verify_captured_pkts(output, capture, compare_func)

    def create_packet_header_IPv6(self):
        """Create packet header: IPv6 header, UDP header

        :param dst: IPv6 destination address

        IPv6 source address is 1234::1
        IPv6 destination address is 4321::1
        UDP source port and destination port are 1234
        """

        p = (IPv6(src='1234::1', dst='4321::1') /
             UDP(sport=1234, dport=1234))
        return p

    def create_packet_header_IPv6_SRH_IPv6(self, sidlist, segleft):
        """Create packet header: IPv6 encapsulated in SRv6:
        IPv6 header with SRH, IPv6 header, UDP header

        :param list sidlist: segment list of outer IPv6 SRH
        :param int segleft: segments-left field of outer IPv6 SRH

        Outer IPv6 source address is set to 5678::1
        Outer IPv6 destination address is set to sidlist[segleft]
        IPv6 source addresses is 1234::1
        IPv6 destination address is 4321::1
        UDP source port and destination port are 1234
        """

        p = (IPv6(src='5678::1', dst=sidlist[segleft]) /
             IPv6ExtHdrSegmentRouting(addresses=sidlist,
                                      segleft=segleft, nh=41) /
             IPv6(src='1234::1', dst='4321::1') /
             UDP(sport=1234, dport=1234))
        return p

    def create_packet_header_IPv4(self):
        """Create packet header: IPv4 header, UDP header

        :param dst: IPv4 destination address

        IPv4 source address is 123.1.1.1
        IPv4 destination address is 124.1.1.1
        UDP source port and destination port are 1234
        """

        p = (IP(src='123.1.1.1', dst='124.1.1.1') /
             UDP(sport=1234, dport=1234))
        return p

    def create_packet_header_IPv6_SRH_IPv4(self, sidlist, segleft):
        """Create packet header: IPv4 encapsulated in SRv6:
        IPv6 header with SRH, IPv4 header, UDP header

        :param ipv4address dst: inner IPv4 destination address
        :param list sidlist: segment list of outer IPv6 SRH
        :param int segleft: segments-left field of outer IPv6 SRH

        Outer IPv6 destination address is set to sidlist[segleft]
        IPv6 source address is 1234::1
        IPv4 source address is 123.1.1.1
        IPv4 destination address is 124.1.1.1
        UDP source port and destination port are 1234
        """

        p = (IPv6(src='1234::1', dst=sidlist[segleft]) /
             IPv6ExtHdrSegmentRouting(addresses=sidlist,
                                      segleft=segleft, nh=4) /
             IP(src='123.1.1.1', dst='124.1.1.1') /
             UDP(sport=1234, dport=1234))
        return p

    def create_packet_header_L2(self, vlan=0):
        """Create packet header: L2 header

        :param vlan: if vlan!=0 then add 802.1q header
        """
        # Note: the dst addr ('00:55:44:33:22:11') is used in
        # the compare function compare_rx_tx_packet_T_Encaps_L2
        # to detect presence of L2 in SRH payload
        p = Ether(src='00:11:22:33:44:55', dst='00:55:44:33:22:11')
        etype = 0x8137  # IPX
        if vlan:
            # add 802.1q layer
            p /= Dot1Q(vlan=vlan, type=etype)
        else:
            p.type = etype
        return p

    def create_packet_header_IPv6_SRH_L2(self, sidlist, segleft, vlan=0):
        """Create packet header: L2 encapsulated in SRv6:
        IPv6 header with SRH, L2

        :param list sidlist: segment list of outer IPv6 SRH
        :param int segleft: segments-left field of outer IPv6 SRH
        :param vlan: L2 vlan; if vlan!=0 then add 802.1q header

        Outer IPv6 destination address is set to sidlist[segleft]
        IPv6 source address is 1234::1
        """
        eth = Ether(src='00:11:22:33:44:55', dst='00:55:44:33:22:11')
        etype = 0x8137  # IPX
        if vlan:
            # add 802.1q layer
            eth /= Dot1Q(vlan=vlan, type=etype)
        else:
            eth.type = etype

        p = (IPv6(src='1234::1', dst=sidlist[segleft]) /
             IPv6ExtHdrSegmentRouting(addresses=sidlist,
                                      segleft=segleft, nh=143) /
             eth)
        return p

    def get_payload_info(self, packet):
        """ Extract the payload_info from the packet
        """
        # in most cases, payload_info is in packet[Raw]
        # but packet[Raw] gives the complete payload
        # (incl L2 header) for the T.Encaps L2 case
        try:
            payload_info = self.payload_to_info(packet[Raw])

        except:
            # remote L2 header from packet[Raw]:
            # take packet[Raw], convert it to an Ether layer
            # and then extract Raw from it
            payload_info = self.payload_to_info(
                Ether(scapy.compat.raw(packet[Raw]))[Raw])

        return payload_info

    def verify_captured_pkts(self, dst_if, capture, compare_func):
        """
        Verify captured packet stream for specified interface.
        Compare ingress with egress packets using the specified compare fn

        :param dst_if: egress interface of DUT
        :param capture: captured packets
        :param compare_func: function to compare in and out packet
        """
        self.logger.info("Verifying capture on interface %s using function %s"
                         % (dst_if.name, compare_func.__name__))

        last_info = dict()
        for i in self.pg_interfaces:
            last_info[i.sw_if_index] = None
        dst_sw_if_index = dst_if.sw_if_index

        for packet in capture:
            try:
                # extract payload_info from packet's payload
                payload_info = self.get_payload_info(packet)
                packet_index = payload_info.index

                self.logger.debug("Verifying packet with index %d"
                                  % (packet_index))
                # packet should have arrived on the expected interface
                self.assertEqual(payload_info.dst, dst_sw_if_index)
                self.logger.debug(
                    "Got packet on interface %s: src=%u (idx=%u)" %
                    (dst_if.name, payload_info.src, packet_index))

                # search for payload_info with same src and dst if_index
                # this will give us the transmitted packet
                next_info = self.get_next_packet_info_for_interface2(
                    payload_info.src, dst_sw_if_index,
                    last_info[payload_info.src])
                last_info[payload_info.src] = next_info
                # next_info should not be None
                self.assertTrue(next_info is not None)
                # index of tx and rx packets should be equal
                self.assertEqual(packet_index, next_info.index)
                # data field of next_info contains the tx packet
                txed_packet = next_info.data

                self.logger.debug(ppp("Transmitted packet:",
                                      txed_packet))  # ppp=Pretty Print Packet

                self.logger.debug(ppp("Received packet:", packet))

                # compare rcvd packet with expected packet using compare_func
                compare_func(txed_packet, packet)

            except:
                self.logger.error(ppp("Unexpected or invalid packet:", packet))
                raise

        # have all expected packets arrived?
        for i in self.pg_interfaces:
            remaining_packet = self.get_next_packet_info_for_interface2(
                i.sw_if_index, dst_sw_if_index, last_info[i.sw_if_index])
            self.assertTrue(remaining_packet is None,
                            "Interface %s: Packet expected from interface %s "
                            "didn't arrive" % (dst_if.name, i.name))


if __name__ == '__main__':
    unittest.main(testRunner=VppTestRunner)