linux/tools/testing/selftests/net/arp_ndisc_untracked_subnets.sh
Jaehee Park 0ea7b0a454 selftests: net: arp_ndisc_untracked_subnets: test for arp_accept and accept_untracked_na
ipv4 arp_accept has a new option '2' to create new neighbor entries
only if the src ip is in the same subnet as an address configured on
the interface that received the garp message. This selftest tests all
options in arp_accept.

ipv6 has a sysctl endpoint, accept_untracked_na, that defines the
behavior for accepting untracked neighbor advertisements. A new option
similar to that of arp_accept for learning only from the same subnet is
added to accept_untracked_na. This selftest tests this new feature.

Signed-off-by: Jaehee Park <jhpark1013@gmail.com>
Suggested-by: Roopa Prabhu <roopa@nvidia.com>
Signed-off-by: Jakub Kicinski <kuba@kernel.org>
2022-07-15 18:55:50 -07:00

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Executable File

#!/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 -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 <<EOF
usage: ${0##*/} OPTS
-t <test> 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