#!/usr/bin/env python3 from __future__ import print_function import logging import sys import os import select import signal import subprocess import unittest import re import time import faulthandler import random import copy import platform import shutil from collections import deque from threading import Thread, Event from inspect import getdoc, isclass from traceback import format_exception from logging import FileHandler, DEBUG, Formatter from enum import Enum from abc import ABC, abstractmethod from struct import pack, unpack import scapy.compat from scapy.packet import Raw, Packet from vpp_pg_interface import VppPGInterface, is_ipv6_misc from vpp_sub_interface import VppSubInterface from vpp_lo_interface import VppLoInterface from vpp_bvi_interface import VppBviInterface from vpp_papi_provider import VppPapiProvider from vpp_papi import VppEnum import vpp_papi from vpp_object import VppObjectRegistry from util import ppp, is_core_present from scapy.layers.inet import IPerror, TCPerror, UDPerror, ICMPerror from scapy.layers.inet6 import ICMPv6DestUnreach, ICMPv6EchoRequest from scapy.layers.inet6 import ICMPv6EchoReply from vpp_running import use_running from asfframework import VppAsfTestCase """ Packet Generator / Scapy Test framework module. The module provides a set of tools for constructing and running tests and representing the results. """ class _PacketInfo(object): """Private class to create packet info object. Help process information about the next packet. Set variables to default values. """ #: Store the index of the packet. index = -1 #: Store the index of the source packet generator interface of the packet. src = -1 #: Store the index of the destination packet generator interface #: of the packet. dst = -1 #: Store expected ip version ip = -1 #: Store expected upper protocol proto = -1 #: Store the copy of the former packet. data = None def __repr__(self): return f"_PacketInfo index:{self.index} src:{self.src} dst:{self.dst} ip:{self.ip} proto:{self.proto} data:{self.data}" def __eq__(self, other): index = self.index == other.index src = self.src == other.src dst = self.dst == other.dst data = self.data == other.data return index and src and dst and data @use_running class VppTestCase(VppAsfTestCase): """This subclass is a base class for VPP test cases that are implemented as classes. It provides methods to create and run test case. """ @property def packet_infos(self): """List of packet infos""" return self._packet_infos @classmethod def get_packet_count_for_if_idx(cls, dst_if_index): """Get the number of packet info for specified destination if index""" if dst_if_index in cls._packet_count_for_dst_if_idx: return cls._packet_count_for_dst_if_idx[dst_if_index] else: return 0 @classmethod def setUpClass(cls): super(VppTestCase, cls).setUpClass() cls.reset_packet_infos() cls._pcaps = [] cls._old_pcaps = [] @classmethod def tearDownClass(cls): cls.logger.debug("--- tearDownClass() for %s called ---" % cls.__name__) cls.reset_packet_infos() super(VppTestCase, cls).tearDownClass() @classmethod def pg_enable_capture(cls, interfaces=None): """ Enable capture on packet-generator interfaces :param interfaces: iterable interface indexes (if None, use self.pg_interfaces) """ if interfaces is None: interfaces = cls.pg_interfaces for i in interfaces: i.enable_capture() @classmethod def register_pcap(cls, intf, worker): """Register a pcap in the testclass""" # add to the list of captures with current timestamp cls._pcaps.append((intf, worker)) @classmethod def pg_start(cls, trace=True, traceFilter=False): """Enable the PG, wait till it is done, then clean up""" for intf, worker in cls._old_pcaps: intf.remove_old_pcap_file(intf.get_in_path(worker)) cls._old_pcaps = [] if trace: cls.vapi.cli("clear trace") cls.vapi.cli("trace add pg-input 1000" + (" filter" if traceFilter else "")) cls.vapi.cli("packet-generator enable") # PG, when starts, runs to completion - # so let's avoid a race condition, # and wait a little till it's done. # Then clean it up - and then be gone. deadline = time.time() + 300 while cls.vapi.cli("show packet-generator").find("Yes") != -1: cls.sleep(0.01) # yield if time.time() > deadline: cls.logger.error("Timeout waiting for pg to stop") break for intf, worker in cls._pcaps: cls.vapi.cli("packet-generator delete %s" % intf.get_cap_name(worker)) cls._old_pcaps = cls._pcaps cls._pcaps = [] @classmethod def create_pg_interfaces_internal(cls, interfaces, gso=0, gso_size=0, mode=None): """ Create packet-generator interfaces. :param interfaces: iterable indexes of the interfaces. :returns: List of created interfaces. """ result = [] for i in interfaces: intf = VppPGInterface(cls, i, gso, gso_size, mode) setattr(cls, intf.name, intf) result.append(intf) cls.pg_interfaces = result return result @classmethod def create_pg_ip4_interfaces(cls, interfaces, gso=0, gso_size=0): if not hasattr(cls, "vpp"): cls.pg_interfaces = [] return cls.pg_interfaces pgmode = VppEnum.vl_api_pg_interface_mode_t return cls.create_pg_interfaces_internal( interfaces, gso, gso_size, pgmode.PG_API_MODE_IP4 ) @classmethod def create_pg_ip6_interfaces(cls, interfaces, gso=0, gso_size=0): if not hasattr(cls, "vpp"): cls.pg_interfaces = [] return cls.pg_interfaces pgmode = VppEnum.vl_api_pg_interface_mode_t return cls.create_pg_interfaces_internal( interfaces, gso, gso_size, pgmode.PG_API_MODE_IP6 ) @classmethod def create_pg_interfaces(cls, interfaces, gso=0, gso_size=0): if not hasattr(cls, "vpp"): cls.pg_interfaces = [] return cls.pg_interfaces pgmode = VppEnum.vl_api_pg_interface_mode_t return cls.create_pg_interfaces_internal( interfaces, gso, gso_size, pgmode.PG_API_MODE_ETHERNET ) @classmethod def create_pg_ethernet_interfaces(cls, interfaces, gso=0, gso_size=0): if not hasattr(cls, "vpp"): cls.pg_interfaces = [] return cls.pg_interfaces pgmode = VppEnum.vl_api_pg_interface_mode_t return cls.create_pg_interfaces_internal( interfaces, gso, gso_size, pgmode.PG_API_MODE_ETHERNET ) @classmethod def create_loopback_interfaces(cls, count): """ Create loopback interfaces. :param count: number of interfaces created. :returns: List of created interfaces. """ if not hasattr(cls, "vpp"): cls.lo_interfaces = [] return cls.lo_interfaces result = [VppLoInterface(cls) for i in range(count)] for intf in result: setattr(cls, intf.name, intf) cls.lo_interfaces = result return result @classmethod def create_bvi_interfaces(cls, count): """ Create BVI interfaces. :param count: number of interfaces created. :returns: List of created interfaces. """ if not hasattr(cls, "vpp"): cls.bvi_interfaces = [] return cls.bvi_interfaces result = [VppBviInterface(cls) for i in range(count)] for intf in result: setattr(cls, intf.name, intf) cls.bvi_interfaces = result return result @staticmethod def extend_packet(packet, size, padding=" "): """ Extend packet to given size by padding with spaces or custom padding NOTE: Currently works only when Raw layer is present. :param packet: packet :param size: target size :param padding: padding used to extend the payload """ packet_len = len(packet) + 4 extend = size - packet_len if extend > 0: num = (extend // len(padding)) + 1 packet[Raw].load += (padding * num)[:extend].encode("ascii") @classmethod def reset_packet_infos(cls): """Reset the list of packet info objects and packet counts to zero""" cls._packet_infos = {} cls._packet_count_for_dst_if_idx = {} @classmethod def create_packet_info(cls, src_if, dst_if): """ Create packet info object containing the source and destination indexes and add it to the testcase's packet info list :param VppInterface src_if: source interface :param VppInterface dst_if: destination interface :returns: _PacketInfo object """ info = _PacketInfo() info.index = len(cls._packet_infos) info.src = src_if.sw_if_index info.dst = dst_if.sw_if_index if isinstance(dst_if, VppSubInterface): dst_idx = dst_if.parent.sw_if_index else: dst_idx = dst_if.sw_if_index if dst_idx in cls._packet_count_for_dst_if_idx: cls._packet_count_for_dst_if_idx[dst_idx] += 1 else: cls._packet_count_for_dst_if_idx[dst_idx] = 1 cls._packet_infos[info.index] = info return info @staticmethod def info_to_payload(info): """ Convert _PacketInfo object to packet payload :param info: _PacketInfo object :returns: string containing serialized data from packet info """ # retrieve payload, currently 18 bytes (4 x ints + 1 short) return pack("iiiih", info.index, info.src, info.dst, info.ip, info.proto) @staticmethod def payload_to_info(payload, payload_field="load"): """ Convert packet payload to _PacketInfo object :param payload: packet payload :type payload: :param payload_field: packet fieldname of payload "load" for :type payload_field: str :returns: _PacketInfo object containing de-serialized data from payload """ # retrieve payload, currently 18 bytes (4 x ints + 1 short) payload_b = getattr(payload, payload_field)[:18] info = _PacketInfo() info.index, info.src, info.dst, info.ip, info.proto = unpack("iiiih", payload_b) # some SRv6 TCs depend on get an exception if bad values are detected if info.index > 0x4000: raise ValueError("Index value is invalid") return info def get_next_packet_info(self, info): """ Iterate over the packet info list stored in the testcase Start iteration with first element if info is None Continue based on index in info if info is specified :param info: info or None :returns: next info in list or None if no more infos """ if info is None: next_index = 0 else: next_index = info.index + 1 if next_index == len(self._packet_infos): return None else: return self._packet_infos[next_index] def get_next_packet_info_for_interface(self, src_index, info): """ Search the packet info list for the next packet info with same source interface index :param src_index: source interface index to search for :param info: packet info - where to start the search :returns: packet info or None """ while True: info = self.get_next_packet_info(info) if info is None: return None if info.src == src_index: return info def get_next_packet_info_for_interface2(self, src_index, dst_index, info): """ Search the packet info list for the next packet info with same source and destination interface indexes :param src_index: source interface index to search for :param dst_index: destination interface index to search for :param info: packet info - where to start the search :returns: packet info or None """ while True: info = self.get_next_packet_info_for_interface(src_index, info) if info is None: return None if info.dst == dst_index: return info def assert_packet_checksums_valid(self, packet, ignore_zero_udp_checksums=True): received = packet.__class__(scapy.compat.raw(packet)) udp_layers = ["UDP", "UDPerror"] checksum_fields = ["cksum", "chksum"] checksums = [] counter = 0 temp = received.__class__(scapy.compat.raw(received)) while True: layer = temp.getlayer(counter) if layer: layer = layer.copy() layer.remove_payload() for cf in checksum_fields: if hasattr(layer, cf): if ( ignore_zero_udp_checksums and 0 == getattr(layer, cf) and layer.name in udp_layers ): continue delattr(temp.getlayer(counter), cf) checksums.append((counter, cf)) else: break counter = counter + 1 if 0 == len(checksums): return temp = temp.__class__(scapy.compat.raw(temp)) for layer, cf in reversed(checksums): calc_sum = getattr(temp[layer], cf) self.assert_equal( getattr(received[layer], cf), calc_sum, "packet checksum on layer #%d: %s" % (layer, temp[layer].name), ) self.logger.debug( "Checksum field `%s` on `%s` layer has correct value `%s`" % (cf, temp[layer].name, calc_sum) ) def assert_checksum_valid( self, received_packet, layer, checksum_field_names=["chksum", "cksum"], ignore_zero_checksum=False, ): """Check checksum of received packet on given layer""" layer_copy = received_packet[layer].copy() layer_copy.remove_payload() field_name = None for f in checksum_field_names: if hasattr(layer_copy, f): field_name = f break if field_name is None: raise Exception( f"Layer `{layer}` has none of checksum fields: `{checksum_field_names}`." ) received_packet_checksum = getattr(received_packet[layer], field_name) if ignore_zero_checksum and 0 == received_packet_checksum: return recalculated = received_packet.__class__(scapy.compat.raw(received_packet)) delattr(recalculated[layer], field_name) recalculated = recalculated.__class__(scapy.compat.raw(recalculated)) self.assert_equal( received_packet_checksum, getattr(recalculated[layer], field_name), f"packet checksum (field: {field_name}) on layer: %s" % layer, ) def assert_ip_checksum_valid(self, received_packet, ignore_zero_checksum=False): self.assert_checksum_valid( received_packet, "IP", ignore_zero_checksum=ignore_zero_checksum ) def assert_tcp_checksum_valid(self, received_packet, ignore_zero_checksum=False): self.assert_checksum_valid( received_packet, "TCP", ignore_zero_checksum=ignore_zero_checksum ) def assert_udp_checksum_valid(self, received_packet, ignore_zero_checksum=True): self.assert_checksum_valid( received_packet, "UDP", ignore_zero_checksum=ignore_zero_checksum ) def assert_embedded_icmp_checksum_valid(self, received_packet): if received_packet.haslayer(IPerror): self.assert_checksum_valid(received_packet, "IPerror") if received_packet.haslayer(TCPerror): self.assert_checksum_valid(received_packet, "TCPerror") if received_packet.haslayer(UDPerror): self.assert_checksum_valid( received_packet, "UDPerror", ignore_zero_checksum=True ) if received_packet.haslayer(ICMPerror): self.assert_checksum_valid(received_packet, "ICMPerror") def assert_icmp_checksum_valid(self, received_packet): self.assert_checksum_valid(received_packet, "ICMP") self.assert_embedded_icmp_checksum_valid(received_packet) def assert_icmpv6_checksum_valid(self, pkt): if pkt.haslayer(ICMPv6DestUnreach): self.assert_checksum_valid(pkt, "ICMPv6DestUnreach") self.assert_embedded_icmp_checksum_valid(pkt) if pkt.haslayer(ICMPv6EchoRequest): self.assert_checksum_valid(pkt, "ICMPv6EchoRequest") if pkt.haslayer(ICMPv6EchoReply): self.assert_checksum_valid(pkt, "ICMPv6EchoReply") def assert_packet_counter_equal(self, counter, expected_value): counter_value = self.get_counter(counter) self.assert_equal( counter_value, expected_value, "packet counter `%s'" % counter ) def pg_send(self, intf, pkts, worker=None, trace=True): intf.add_stream(pkts, worker=worker) self.pg_enable_capture(self.pg_interfaces) self.pg_start(trace=trace) def send_and_assert_no_replies( self, intf, pkts, remark="", timeout=None, stats_diff=None, trace=True, msg=None ): if stats_diff: stats_snapshot = self.snapshot_stats(stats_diff) self.pg_send(intf, pkts) try: if not timeout: timeout = 1 for i in self.pg_interfaces: i.assert_nothing_captured(timeout=timeout, remark=remark) timeout = 0.1 finally: if trace: if msg: self.logger.debug(f"send_and_assert_no_replies: {msg}") self.logger.debug(self.vapi.cli("show trace")) if stats_diff: self.compare_stats_with_snapshot(stats_diff, stats_snapshot) def send_and_expect( self, intf, pkts, output, n_rx=None, worker=None, trace=True, msg=None, stats_diff=None, filter_out_fn=is_ipv6_misc, ): if stats_diff: stats_snapshot = self.snapshot_stats(stats_diff) if not n_rx: n_rx = 1 if isinstance(pkts, Packet) else len(pkts) self.pg_send(intf, pkts, worker=worker, trace=trace) rx = output.get_capture(n_rx, filter_out_fn=filter_out_fn) if trace: if msg: self.logger.debug(f"send_and_expect: {msg}") self.logger.debug(self.vapi.cli("show trace")) if stats_diff: self.compare_stats_with_snapshot(stats_diff, stats_snapshot) return rx def send_and_expect_load_balancing( self, input, pkts, outputs, worker=None, trace=True ): self.pg_send(input, pkts, worker=worker, trace=trace) rxs = [] for oo in outputs: rx = oo._get_capture(1) self.assertNotEqual(0, len(rx), f"0 != len(rx) ({len(rx)})") rxs.append(rx) if trace: self.logger.debug(self.vapi.cli("show trace")) return rxs def send_and_expect_some(self, intf, pkts, output, worker=None, trace=True): self.pg_send(intf, pkts, worker=worker, trace=trace) rx = output._get_capture(1) if trace: self.logger.debug(self.vapi.cli("show trace")) self.assertTrue(len(rx) > 0) self.assertTrue( len(rx) <= len(pkts), f"len(rx) ({len(rx)}) > len(pkts) ({len(pkts)})" ) return rx def send_and_expect_only(self, intf, pkts, output, timeout=None, stats_diff=None): if stats_diff: stats_snapshot = self.snapshot_stats(stats_diff) self.pg_send(intf, pkts) rx = output.get_capture(len(pkts)) outputs = [output] if not timeout: timeout = 1 for i in self.pg_interfaces: if i not in outputs: i.assert_nothing_captured(timeout=timeout) timeout = 0.1 if stats_diff: self.compare_stats_with_snapshot(stats_diff, stats_snapshot) return rx if __name__ == "__main__": pass