#!/bin/bash # SPDX-License-Identifier: GPL-2.0 # # 2 namespaces: one host and one router. Use arping from the host to send a # garp to the router. Router accepts or ignores based on its arp_accept # or accept_untracked_na configuration. TESTS="arp ndisc" ROUTER_NS="ns-router" ROUTER_NS_V6="ns-router-v6" ROUTER_INTF="veth-router" ROUTER_ADDR="10.0.10.1" ROUTER_ADDR_V6="2001:db8:abcd:0012::1" HOST_NS="ns-host" HOST_NS_V6="ns-host-v6" HOST_INTF="veth-host" HOST_ADDR="10.0.10.2" HOST_ADDR_V6="2001:db8:abcd:0012::2" SUBNET_WIDTH=24 PREFIX_WIDTH_V6=64 cleanup() { ip netns del ${HOST_NS} ip netns del ${ROUTER_NS} } cleanup_v6() { ip netns del ${HOST_NS_V6} ip netns del ${ROUTER_NS_V6} } setup() { set -e local arp_accept=$1 # Set up two namespaces ip netns add ${ROUTER_NS} ip netns add ${HOST_NS} # Set up interfaces veth0 and veth1, which are pairs in separate # namespaces. veth0 is veth-router, veth1 is veth-host. # first, set up the inteface's link to the namespace # then, set the interface "up" ip netns exec ${ROUTER_NS} ip link add name ${ROUTER_INTF} \ type veth peer name ${HOST_INTF} ip netns exec ${ROUTER_NS} ip link set dev ${ROUTER_INTF} up ip netns exec ${ROUTER_NS} ip link set dev ${HOST_INTF} netns ${HOST_NS} ip netns exec ${HOST_NS} ip link set dev ${HOST_INTF} up ip netns exec ${ROUTER_NS} ip addr add ${ROUTER_ADDR}/${SUBNET_WIDTH} \ dev ${ROUTER_INTF} ip netns exec ${HOST_NS} ip addr add ${HOST_ADDR}/${SUBNET_WIDTH} \ dev ${HOST_INTF} ip netns exec ${HOST_NS} ip route add default via ${HOST_ADDR} \ dev ${HOST_INTF} ip netns exec ${ROUTER_NS} ip route add default via ${ROUTER_ADDR} \ dev ${ROUTER_INTF} ROUTER_CONF=net.ipv4.conf.${ROUTER_INTF} ip netns exec ${ROUTER_NS} sysctl -w \ ${ROUTER_CONF}.arp_accept=${arp_accept} >/dev/null 2>&1 set +e } setup_v6() { set -e local accept_untracked_na=$1 # Set up two namespaces ip netns add ${ROUTER_NS_V6} ip netns add ${HOST_NS_V6} # Set up interfaces veth0 and veth1, which are pairs in separate # namespaces. veth0 is veth-router, veth1 is veth-host. # first, set up the inteface's link to the namespace # then, set the interface "up" ip -6 -netns ${ROUTER_NS_V6} link add name ${ROUTER_INTF} \ type veth peer name ${HOST_INTF} ip -6 -netns ${ROUTER_NS_V6} link set dev ${ROUTER_INTF} up ip -6 -netns ${ROUTER_NS_V6} link set dev ${HOST_INTF} netns \ ${HOST_NS_V6} ip -6 -netns ${HOST_NS_V6} link set dev ${HOST_INTF} up ip -6 -netns ${ROUTER_NS_V6} addr add \ ${ROUTER_ADDR_V6}/${PREFIX_WIDTH_V6} dev ${ROUTER_INTF} nodad HOST_CONF=net.ipv6.conf.${HOST_INTF} ip netns exec ${HOST_NS_V6} sysctl -qw ${HOST_CONF}.ndisc_notify=1 ip netns exec ${HOST_NS_V6} sysctl -qw ${HOST_CONF}.disable_ipv6=0 ip -6 -netns ${HOST_NS_V6} addr add ${HOST_ADDR_V6}/${PREFIX_WIDTH_V6} \ dev ${HOST_INTF} ROUTER_CONF=net.ipv6.conf.${ROUTER_INTF} ip netns exec ${ROUTER_NS_V6} sysctl -w \ ${ROUTER_CONF}.forwarding=1 >/dev/null 2>&1 ip netns exec ${ROUTER_NS_V6} sysctl -w \ ${ROUTER_CONF}.drop_unsolicited_na=0 >/dev/null 2>&1 ip netns exec ${ROUTER_NS_V6} sysctl -w \ ${ROUTER_CONF}.accept_untracked_na=${accept_untracked_na} \ >/dev/null 2>&1 set +e } verify_arp() { local arp_accept=$1 local same_subnet=$2 neigh_show_output=$(ip netns exec ${ROUTER_NS} ip neigh get \ ${HOST_ADDR} dev ${ROUTER_INTF} 2>/dev/null) if [ ${arp_accept} -eq 1 ]; then # Neighbor entries expected [[ ${neigh_show_output} ]] elif [ ${arp_accept} -eq 2 ]; then if [ ${same_subnet} -eq 1 ]; then # Neighbor entries expected [[ ${neigh_show_output} ]] else [[ -z "${neigh_show_output}" ]] fi else [[ -z "${neigh_show_output}" ]] fi } arp_test_gratuitous() { set -e local arp_accept=$1 local same_subnet=$2 if [ ${arp_accept} -eq 2 ]; then test_msg=("test_arp: " "accept_arp=$1 " "same_subnet=$2") if [ ${same_subnet} -eq 0 ]; then HOST_ADDR=10.0.11.3 else HOST_ADDR=10.0.10.3 fi else test_msg=("test_arp: " "accept_arp=$1") fi # Supply arp_accept option to set up which sets it in sysctl setup ${arp_accept} ip netns exec ${HOST_NS} arping -A -I ${HOST_INTF} -U ${HOST_ADDR} -c1 2>&1 >/dev/null if verify_arp $1 $2; then printf " TEST: %-60s [ OK ]\n" "${test_msg[*]}" else printf " TEST: %-60s [FAIL]\n" "${test_msg[*]}" fi cleanup set +e } arp_test_gratuitous_combinations() { arp_test_gratuitous 0 arp_test_gratuitous 1 arp_test_gratuitous 2 0 # Second entry indicates subnet or not arp_test_gratuitous 2 1 } cleanup_tcpdump() { set -e [[ ! -z ${tcpdump_stdout} ]] && rm -f ${tcpdump_stdout} [[ ! -z ${tcpdump_stderr} ]] && rm -f ${tcpdump_stderr} tcpdump_stdout= tcpdump_stderr= set +e } start_tcpdump() { set -e tcpdump_stdout=`mktemp` tcpdump_stderr=`mktemp` ip netns exec ${ROUTER_NS_V6} timeout 15s \ tcpdump --immediate-mode -tpni ${ROUTER_INTF} -c 1 \ "icmp6 && icmp6[0] == 136 && src ${HOST_ADDR_V6}" \ > ${tcpdump_stdout} 2> /dev/null set +e } verify_ndisc() { local accept_untracked_na=$1 local same_subnet=$2 neigh_show_output=$(ip -6 -netns ${ROUTER_NS_V6} neigh show \ to ${HOST_ADDR_V6} dev ${ROUTER_INTF} nud stale) if [ ${accept_untracked_na} -eq 1 ]; then # Neighbour entry expected to be present [[ ${neigh_show_output} ]] elif [ ${accept_untracked_na} -eq 2 ]; then if [ ${same_subnet} -eq 1 ]; then [[ ${neigh_show_output} ]] else [[ -z "${neigh_show_output}" ]] fi else # Neighbour entry expected to be absent for all other cases [[ -z "${neigh_show_output}" ]] fi } ndisc_test_untracked_advertisements() { set -e test_msg=("test_ndisc: " "accept_untracked_na=$1") local accept_untracked_na=$1 local same_subnet=$2 if [ ${accept_untracked_na} -eq 2 ]; then test_msg=("test_ndisc: " "accept_untracked_na=$1 " "same_subnet=$2") if [ ${same_subnet} -eq 0 ]; then # Not same subnet HOST_ADDR_V6=2000:db8:abcd:0013::4 else HOST_ADDR_V6=2001:db8:abcd:0012::3 fi fi setup_v6 $1 $2 start_tcpdump if verify_ndisc $1 $2; then printf " TEST: %-60s [ OK ]\n" "${test_msg[*]}" else printf " TEST: %-60s [FAIL]\n" "${test_msg[*]}" fi cleanup_tcpdump cleanup_v6 set +e } ndisc_test_untracked_combinations() { ndisc_test_untracked_advertisements 0 ndisc_test_untracked_advertisements 1 ndisc_test_untracked_advertisements 2 0 ndisc_test_untracked_advertisements 2 1 } ################################################################################ # usage usage() { cat < Test(s) to run (default: all) (options: $TESTS) EOF } ################################################################################ # main while getopts ":t:h" opt; do case $opt in t) TESTS=$OPTARG;; h) usage; exit 0;; *) usage; exit 1;; esac done if [ "$(id -u)" -ne 0 ];then echo "SKIP: Need root privileges" exit $ksft_skip; fi if [ ! -x "$(command -v ip)" ]; then echo "SKIP: Could not run test without ip tool" exit $ksft_skip fi if [ ! -x "$(command -v tcpdump)" ]; then echo "SKIP: Could not run test without tcpdump tool" exit $ksft_skip fi if [ ! -x "$(command -v arping)" ]; then echo "SKIP: Could not run test without arping tool" exit $ksft_skip fi # start clean cleanup &> /dev/null cleanup_v6 &> /dev/null for t in $TESTS do case $t in arp_test_gratuitous_combinations|arp) arp_test_gratuitous_combinations;; ndisc_test_untracked_combinations|ndisc) \ ndisc_test_untracked_combinations;; help) echo "Test names: $TESTS"; exit 0;; esac done