tools/testing/selftests/bpf/test_lwt_ip_encap.sh - linux - Git at Google

 #!/bin/bash
 # SPDX-License-Identifier: GPL-2.0
 #
 # Setup/topology:
 #
 #    NS1             NS2             NS3
 #   veth1 <---> veth2   veth3 <---> veth4 (the top route)
 #   veth5 <---> veth6   veth7 <---> veth8 (the bottom route)
 #
 #   each vethN gets IPv[4|6]_N address
 #
 #   IPv*_SRC = IPv*_1
 #   IPv*_DST = IPv*_4
 #
 #   all tests test pings from IPv*_SRC to IPv*_DST
 #
 #   by default, routes are configured to allow packets to go
 #   IP*_1 <=> IP*_2 <=> IP*_3 <=> IP*_4 (the top route)
 #
 #   a GRE device is installed in NS3 with IPv*_GRE, and
 #   NS1/NS2 are configured to route packets to IPv*_GRE via IP*_8
 #   (the bottom route)
 #
 # Tests:
 #
 #   1. routes NS2->IPv*_DST are brought down, so the only way a ping
 #      from IP*_SRC to IP*_DST can work is via IPv*_GRE
 #
 #   2a. in an egress test, a bpf LWT_XMIT program is installed on veth1
 #       that encaps the packets with an IP/GRE header to route to IPv*_GRE
 #
 #       ping: SRC->[encap at veth1:egress]->GRE:decap->DST
 #       ping replies go DST->SRC directly
 #
 #   2b. in an ingress test, a bpf LWT_IN program is installed on veth2
 #       that encaps the packets with an IP/GRE header to route to IPv*_GRE
 #
 #       ping: SRC->[encap at veth2:ingress]->GRE:decap->DST
 #       ping replies go DST->SRC directly

 if [[ $EUID -ne 0 ]]; then
 	echo "This script must be run as root"
 	echo "FAIL"
 	exit 1
 fi

 readonly NS1="ns1-$(mktemp -u XXXXXX)"
 readonly NS2="ns2-$(mktemp -u XXXXXX)"
 readonly NS3="ns3-$(mktemp -u XXXXXX)"

 readonly IPv4_1="172.16.1.100"
 readonly IPv4_2="172.16.2.100"
 readonly IPv4_3="172.16.3.100"
 readonly IPv4_4="172.16.4.100"
 readonly IPv4_5="172.16.5.100"
 readonly IPv4_6="172.16.6.100"
 readonly IPv4_7="172.16.7.100"
 readonly IPv4_8="172.16.8.100"
 readonly IPv4_GRE="172.16.16.100"

 readonly IPv4_SRC=$IPv4_1
 readonly IPv4_DST=$IPv4_4

 readonly IPv6_1="fb01::1"
 readonly IPv6_2="fb02::1"
 readonly IPv6_3="fb03::1"
 readonly IPv6_4="fb04::1"
 readonly IPv6_5="fb05::1"
 readonly IPv6_6="fb06::1"
 readonly IPv6_7="fb07::1"
 readonly IPv6_8="fb08::1"
 readonly IPv6_GRE="fb10::1"

 readonly IPv6_SRC=$IPv6_1
 readonly IPv6_DST=$IPv6_4

 TEST_STATUS=0
 TESTS_SUCCEEDED=0
 TESTS_FAILED=0

 TMPFILE=""

 process_test_results()
 {
 	if [[ "${TEST_STATUS}" -eq 0 ]] ; then
 		echo "PASS"
 		TESTS_SUCCEEDED=$((TESTS_SUCCEEDED+1))
 	else
 		echo "FAIL"
 		TESTS_FAILED=$((TESTS_FAILED+1))
 	fi
 }

 print_test_summary_and_exit()
 {
 	echo "passed tests: ${TESTS_SUCCEEDED}"
 	echo "failed tests: ${TESTS_FAILED}"
 	if [ "${TESTS_FAILED}" -eq "0" ] ; then
 		exit 0
 	else
 		exit 1
 	fi
 }

 setup()
 {
 	set -e  # exit on error
 	TEST_STATUS=0

 	# create devices and namespaces
 	ip netns add "${NS1}"
 	ip netns add "${NS2}"
 	ip netns add "${NS3}"

 	# rp_filter gets confused by what these tests are doing, so disable it
 	ip netns exec ${NS1} sysctl -wq net.ipv4.conf.all.rp_filter=0
 	ip netns exec ${NS2} sysctl -wq net.ipv4.conf.all.rp_filter=0
 	ip netns exec ${NS3} sysctl -wq net.ipv4.conf.all.rp_filter=0
 	ip netns exec ${NS1} sysctl -wq net.ipv4.conf.default.rp_filter=0
 	ip netns exec ${NS2} sysctl -wq net.ipv4.conf.default.rp_filter=0
 	ip netns exec ${NS3} sysctl -wq net.ipv4.conf.default.rp_filter=0

 	ip link add veth1 type veth peer name veth2
 	ip link add veth3 type veth peer name veth4
 	ip link add veth5 type veth peer name veth6
 	ip link add veth7 type veth peer name veth8

 	ip netns exec ${NS2} sysctl -wq net.ipv4.ip_forward=1
 	ip netns exec ${NS2} sysctl -wq net.ipv6.conf.all.forwarding=1

 	ip link set veth1 netns ${NS1}
 	ip link set veth2 netns ${NS2}
 	ip link set veth3 netns ${NS2}
 	ip link set veth4 netns ${NS3}
 	ip link set veth5 netns ${NS1}
 	ip link set veth6 netns ${NS2}
 	ip link set veth7 netns ${NS2}
 	ip link set veth8 netns ${NS3}

 	if [ ! -z "${VRF}" ] ; then
 		ip -netns ${NS1} link add red type vrf table 1001
 		ip -netns ${NS1} link set red up
 		ip -netns ${NS1} route add table 1001 unreachable default metric 8192
 		ip -netns ${NS1} -6 route add table 1001 unreachable default metric 8192
 		ip -netns ${NS1} link set veth1 vrf red
 		ip -netns ${NS1} link set veth5 vrf red

 		ip -netns ${NS2} link add red type vrf table 1001
 		ip -netns ${NS2} link set red up
 		ip -netns ${NS2} route add table 1001 unreachable default metric 8192
 		ip -netns ${NS2} -6 route add table 1001 unreachable default metric 8192
 		ip -netns ${NS2} link set veth2 vrf red
 		ip -netns ${NS2} link set veth3 vrf red
 		ip -netns ${NS2} link set veth6 vrf red
 		ip -netns ${NS2} link set veth7 vrf red
 	fi

 	# configure addesses: the top route (1-2-3-4)
 	ip -netns ${NS1}    addr add ${IPv4_1}/24  dev veth1
 	ip -netns ${NS2}    addr add ${IPv4_2}/24  dev veth2
 	ip -netns ${NS2}    addr add ${IPv4_3}/24  dev veth3
 	ip -netns ${NS3}    addr add ${IPv4_4}/24  dev veth4
 	ip -netns ${NS1} -6 addr add ${IPv6_1}/128 nodad dev veth1
 	ip -netns ${NS2} -6 addr add ${IPv6_2}/128 nodad dev veth2
 	ip -netns ${NS2} -6 addr add ${IPv6_3}/128 nodad dev veth3
 	ip -netns ${NS3} -6 addr add ${IPv6_4}/128 nodad dev veth4

 	# configure addresses: the bottom route (5-6-7-8)
 	ip -netns ${NS1}    addr add ${IPv4_5}/24  dev veth5
 	ip -netns ${NS2}    addr add ${IPv4_6}/24  dev veth6
 	ip -netns ${NS2}    addr add ${IPv4_7}/24  dev veth7
 	ip -netns ${NS3}    addr add ${IPv4_8}/24  dev veth8
 	ip -netns ${NS1} -6 addr add ${IPv6_5}/128 nodad dev veth5
 	ip -netns ${NS2} -6 addr add ${IPv6_6}/128 nodad dev veth6
 	ip -netns ${NS2} -6 addr add ${IPv6_7}/128 nodad dev veth7
 	ip -netns ${NS3} -6 addr add ${IPv6_8}/128 nodad dev veth8

 	ip -netns ${NS1} link set dev veth1 up
 	ip -netns ${NS2} link set dev veth2 up
 	ip -netns ${NS2} link set dev veth3 up
 	ip -netns ${NS3} link set dev veth4 up
 	ip -netns ${NS1} link set dev veth5 up
 	ip -netns ${NS2} link set dev veth6 up
 	ip -netns ${NS2} link set dev veth7 up
 	ip -netns ${NS3} link set dev veth8 up

 	# configure routes: IP*_SRC -> veth1/IP*_2 (= top route) default;
 	# the bottom route to specific bottom addresses

 	# NS1
 	# top route
 	ip -netns ${NS1}    route add ${IPv4_2}/32  dev veth1 ${VRF}
 	ip -netns ${NS1}    route add default dev veth1 via ${IPv4_2} ${VRF}  # go top by default
 	ip -netns ${NS1} -6 route add ${IPv6_2}/128 dev veth1 ${VRF}
 	ip -netns ${NS1} -6 route add default dev veth1 via ${IPv6_2} ${VRF}  # go top by default
 	# bottom route
 	ip -netns ${NS1}    route add ${IPv4_6}/32  dev veth5 ${VRF}
 	ip -netns ${NS1}    route add ${IPv4_7}/32  dev veth5 via ${IPv4_6} ${VRF}
 	ip -netns ${NS1}    route add ${IPv4_8}/32  dev veth5 via ${IPv4_6} ${VRF}
 	ip -netns ${NS1} -6 route add ${IPv6_6}/128 dev veth5 ${VRF}
 	ip -netns ${NS1} -6 route add ${IPv6_7}/128 dev veth5 via ${IPv6_6} ${VRF}
 	ip -netns ${NS1} -6 route add ${IPv6_8}/128 dev veth5 via ${IPv6_6} ${VRF}

 	# NS2
 	# top route
 	ip -netns ${NS2}    route add ${IPv4_1}/32  dev veth2 ${VRF}
 	ip -netns ${NS2}    route add ${IPv4_4}/32  dev veth3 ${VRF}
 	ip -netns ${NS2} -6 route add ${IPv6_1}/128 dev veth2 ${VRF}
 	ip -netns ${NS2} -6 route add ${IPv6_4}/128 dev veth3 ${VRF}
 	# bottom route
 	ip -netns ${NS2}    route add ${IPv4_5}/32  dev veth6 ${VRF}
 	ip -netns ${NS2}    route add ${IPv4_8}/32  dev veth7 ${VRF}
 	ip -netns ${NS2} -6 route add ${IPv6_5}/128 dev veth6 ${VRF}
 	ip -netns ${NS2} -6 route add ${IPv6_8}/128 dev veth7 ${VRF}

 	# NS3
 	# top route
 	ip -netns ${NS3}    route add ${IPv4_3}/32  dev veth4
 	ip -netns ${NS3}    route add ${IPv4_1}/32  dev veth4 via ${IPv4_3}
 	ip -netns ${NS3}    route add ${IPv4_2}/32  dev veth4 via ${IPv4_3}
 	ip -netns ${NS3} -6 route add ${IPv6_3}/128 dev veth4
 	ip -netns ${NS3} -6 route add ${IPv6_1}/128 dev veth4 via ${IPv6_3}
 	ip -netns ${NS3} -6 route add ${IPv6_2}/128 dev veth4 via ${IPv6_3}
 	# bottom route
 	ip -netns ${NS3}    route add ${IPv4_7}/32  dev veth8
 	ip -netns ${NS3}    route add ${IPv4_5}/32  dev veth8 via ${IPv4_7}
 	ip -netns ${NS3}    route add ${IPv4_6}/32  dev veth8 via ${IPv4_7}
 	ip -netns ${NS3} -6 route add ${IPv6_7}/128 dev veth8
 	ip -netns ${NS3} -6 route add ${IPv6_5}/128 dev veth8 via ${IPv6_7}
 	ip -netns ${NS3} -6 route add ${IPv6_6}/128 dev veth8 via ${IPv6_7}

 	# configure IPv4 GRE device in NS3, and a route to it via the "bottom" route
 	ip -netns ${NS3} tunnel add gre_dev mode gre remote ${IPv4_1} local ${IPv4_GRE} ttl 255
 	ip -netns ${NS3} link set gre_dev up
 	ip -netns ${NS3} addr add ${IPv4_GRE} dev gre_dev
 	ip -netns ${NS1} route add ${IPv4_GRE}/32 dev veth5 via ${IPv4_6} ${VRF}
 	ip -netns ${NS2} route add ${IPv4_GRE}/32 dev veth7 via ${IPv4_8} ${VRF}


 	# configure IPv6 GRE device in NS3, and a route to it via the "bottom" route
 	ip -netns ${NS3} -6 tunnel add name gre6_dev mode ip6gre remote ${IPv6_1} local ${IPv6_GRE} ttl 255
 	ip -netns ${NS3} link set gre6_dev up
 	ip -netns ${NS3} -6 addr add ${IPv6_GRE} nodad dev gre6_dev
 	ip -netns ${NS1} -6 route add ${IPv6_GRE}/128 dev veth5 via ${IPv6_6} ${VRF}
 	ip -netns ${NS2} -6 route add ${IPv6_GRE}/128 dev veth7 via ${IPv6_8} ${VRF}

 	TMPFILE=$(mktemp /tmp/test_lwt_ip_encap.XXXXXX)

 	sleep 1  # reduce flakiness
 	set +e
 }

 cleanup()
 {
 	if [ -f ${TMPFILE} ] ; then
 		rm ${TMPFILE}
 	fi

 	ip netns del ${NS1} 2> /dev/null
 	ip netns del ${NS2} 2> /dev/null
 	ip netns del ${NS3} 2> /dev/null
 }

 trap cleanup EXIT

 remove_routes_to_gredev()
 {
 	ip -netns ${NS1} route del ${IPv4_GRE} dev veth5 ${VRF}
 	ip -netns ${NS2} route del ${IPv4_GRE} dev veth7 ${VRF}
 	ip -netns ${NS1} -6 route del ${IPv6_GRE}/128 dev veth5 ${VRF}
 	ip -netns ${NS2} -6 route del ${IPv6_GRE}/128 dev veth7 ${VRF}
 }

 add_unreachable_routes_to_gredev()
 {
 	ip -netns ${NS1} route add unreachable ${IPv4_GRE}/32 ${VRF}
 	ip -netns ${NS2} route add unreachable ${IPv4_GRE}/32 ${VRF}
 	ip -netns ${NS1} -6 route add unreachable ${IPv6_GRE}/128 ${VRF}
 	ip -netns ${NS2} -6 route add unreachable ${IPv6_GRE}/128 ${VRF}
 }

 test_ping()
 {
 	local readonly PROTO=$1
 	local readonly EXPECTED=$2
 	local RET=0

 	if [ "${PROTO}" == "IPv4" ] ; then
 		ip netns exec ${NS1} ping  -c 1 -W 1 -I veth1 ${IPv4_DST} 2>&1 > /dev/null
 		RET=$?
 	elif [ "${PROTO}" == "IPv6" ] ; then
 		ip netns exec ${NS1} ping6 -c 1 -W 6 -I veth1 ${IPv6_DST} 2>&1 > /dev/null
 		RET=$?
 	else
 		echo "    test_ping: unknown PROTO: ${PROTO}"
 		TEST_STATUS=1
 	fi

 	if [ "0" != "${RET}" ]; then
 		RET=1
 	fi

 	if [ "${EXPECTED}" != "${RET}" ] ; then
 		echo "    test_ping failed: expected: ${EXPECTED}; got ${RET}"
 		TEST_STATUS=1
 	fi
 }

 test_gso()
 {
 	local readonly PROTO=$1
 	local readonly PKT_SZ=5000
 	local IP_DST=""
 	: > ${TMPFILE}  # trim the capture file

 	# check that nc is present
 	command -v nc >/dev/null 2>&1 || \
 		{ echo >&2 "nc is not available: skipping TSO tests"; return; }

 	# listen on port 9000, capture TCP into $TMPFILE
 	if [ "${PROTO}" == "IPv4" ] ; then
 		IP_DST=${IPv4_DST}
 		ip netns exec ${NS3} bash -c \
 			"nc -4 -l -p 9000 > ${TMPFILE} &"
 	elif [ "${PROTO}" == "IPv6" ] ; then
 		IP_DST=${IPv6_DST}
 		ip netns exec ${NS3} bash -c \
 			"nc -6 -l -p 9000 > ${TMPFILE} &"
 		RET=$?
 	else
 		echo "    test_gso: unknown PROTO: ${PROTO}"
 		TEST_STATUS=1
 	fi
 	sleep 1  # let nc start listening

 	# send a packet larger than MTU
 	ip netns exec ${NS1} bash -c \
 		"dd if=/dev/zero bs=$PKT_SZ count=1 > /dev/tcp/${IP_DST}/9000 2>/dev/null"
 	sleep 2 # let the packet get delivered

 	# verify we received all expected bytes
 	SZ=$(stat -c %s ${TMPFILE})
 	if [ "$SZ" != "$PKT_SZ" ] ; then
 		echo "    test_gso failed: ${PROTO}"
 		TEST_STATUS=1
 	fi
 }

 test_egress()
 {
 	local readonly ENCAP=$1
 	echo "starting egress ${ENCAP} encap test ${VRF}"
 	setup

 	# by default, pings work
 	test_ping IPv4 0
 	test_ping IPv6 0

 	# remove NS2->DST routes, ping fails
 	ip -netns ${NS2}    route del ${IPv4_DST}/32  dev veth3 ${VRF}
 	ip -netns ${NS2} -6 route del ${IPv6_DST}/128 dev veth3 ${VRF}
 	test_ping IPv4 1
 	test_ping IPv6 1

 	# install replacement routes (LWT/eBPF), pings succeed
 	if [ "${ENCAP}" == "IPv4" ] ; then
 		ip -netns ${NS1} route add ${IPv4_DST} encap bpf xmit obj \
 			test_lwt_ip_encap.o sec encap_gre dev veth1 ${VRF}
 		ip -netns ${NS1} -6 route add ${IPv6_DST} encap bpf xmit obj \
 			test_lwt_ip_encap.o sec encap_gre dev veth1 ${VRF}
 	elif [ "${ENCAP}" == "IPv6" ] ; then
 		ip -netns ${NS1} route add ${IPv4_DST} encap bpf xmit obj \
 			test_lwt_ip_encap.o sec encap_gre6 dev veth1 ${VRF}
 		ip -netns ${NS1} -6 route add ${IPv6_DST} encap bpf xmit obj \
 			test_lwt_ip_encap.o sec encap_gre6 dev veth1 ${VRF}
 	else
 		echo "    unknown encap ${ENCAP}"
 		TEST_STATUS=1
 	fi
 	test_ping IPv4 0
 	test_ping IPv6 0

 	# skip GSO tests with VRF: VRF routing needs properly assigned
 	# source IP/device, which is easy to do with ping and hard with dd/nc.
 	if [ -z "${VRF}" ] ; then
 		test_gso IPv4
 		test_gso IPv6
 	fi

 	# a negative test: remove routes to GRE devices: ping fails
 	remove_routes_to_gredev
 	test_ping IPv4 1
 	test_ping IPv6 1

 	# another negative test
 	add_unreachable_routes_to_gredev
 	test_ping IPv4 1
 	test_ping IPv6 1

 	cleanup
 	process_test_results
 }

 test_ingress()
 {
 	local readonly ENCAP=$1
 	echo "starting ingress ${ENCAP} encap test ${VRF}"
 	setup

 	# need to wait a bit for IPv6 to autoconf, otherwise
 	# ping6 sometimes fails with "unable to bind to address"

 	# by default, pings work
 	test_ping IPv4 0
 	test_ping IPv6 0

 	# remove NS2->DST routes, pings fail
 	ip -netns ${NS2}    route del ${IPv4_DST}/32  dev veth3 ${VRF}
 	ip -netns ${NS2} -6 route del ${IPv6_DST}/128 dev veth3 ${VRF}
 	test_ping IPv4 1
 	test_ping IPv6 1

 	# install replacement routes (LWT/eBPF), pings succeed
 	if [ "${ENCAP}" == "IPv4" ] ; then
 		ip -netns ${NS2} route add ${IPv4_DST} encap bpf in obj \
 			test_lwt_ip_encap.o sec encap_gre dev veth2 ${VRF}
 		ip -netns ${NS2} -6 route add ${IPv6_DST} encap bpf in obj \
 			test_lwt_ip_encap.o sec encap_gre dev veth2 ${VRF}
 	elif [ "${ENCAP}" == "IPv6" ] ; then
 		ip -netns ${NS2} route add ${IPv4_DST} encap bpf in obj \
 			test_lwt_ip_encap.o sec encap_gre6 dev veth2 ${VRF}
 		ip -netns ${NS2} -6 route add ${IPv6_DST} encap bpf in obj \
 			test_lwt_ip_encap.o sec encap_gre6 dev veth2 ${VRF}
 	else
 		echo "FAIL: unknown encap ${ENCAP}"
 		TEST_STATUS=1
 	fi
 	test_ping IPv4 0
 	test_ping IPv6 0

 	# a negative test: remove routes to GRE devices: ping fails
 	remove_routes_to_gredev
 	test_ping IPv4 1
 	test_ping IPv6 1

 	# another negative test
 	add_unreachable_routes_to_gredev
 	test_ping IPv4 1
 	test_ping IPv6 1

 	cleanup
 	process_test_results
 }

 VRF=""
 test_egress IPv4
 test_egress IPv6
 test_ingress IPv4
 test_ingress IPv6

 VRF="vrf red"
 test_egress IPv4
 test_egress IPv6
 test_ingress IPv4
 test_ingress IPv6

 print_test_summary_and_exit
	#!/bin/bash
	# SPDX-License-Identifier: GPL-2.0
	#
	# Setup/topology:
	#
	# NS1 NS2 NS3
	# veth1 <---> veth2 veth3 <---> veth4 (the top route)
	# veth5 <---> veth6 veth7 <---> veth8 (the bottom route)
	#
	# each vethN gets IPv[4\|6]_N address
	#
	# IPv_SRC = IPv_1
	# IPv_DST = IPv_4
	#
	# all tests test pings from IPv_SRC to IPv_DST
	#
	# by default, routes are configured to allow packets to go
	# IP_1 <=> IP_2 <=> IP_3 <=> IP_4 (the top route)
	#
	# a GRE device is installed in NS3 with IPv*_GRE, and
	# NS1/NS2 are configured to route packets to IPv_GRE via IP_8
	# (the bottom route)
	#
	# Tests:
	#
	# 1. routes NS2->IPv*_DST are brought down, so the only way a ping
	# from IP_SRC to IP_DST can work is via IPv*_GRE
	#
	# 2a. in an egress test, a bpf LWT_XMIT program is installed on veth1
	# that encaps the packets with an IP/GRE header to route to IPv*_GRE
	#
	# ping: SRC->[encap at veth1:egress]->GRE:decap->DST
	# ping replies go DST->SRC directly
	#
	# 2b. in an ingress test, a bpf LWT_IN program is installed on veth2
	# that encaps the packets with an IP/GRE header to route to IPv*_GRE
	#
	# ping: SRC->[encap at veth2:ingress]->GRE:decap->DST
	# ping replies go DST->SRC directly

	if [[ $EUID -ne 0 ]]; then
	echo "This script must be run as root"
	echo "FAIL"
	exit 1
	fi

	readonly NS1="ns1-$(mktemp -u XXXXXX)"
	readonly NS2="ns2-$(mktemp -u XXXXXX)"
	readonly NS3="ns3-$(mktemp -u XXXXXX)"

	readonly IPv4_1="172.16.1.100"
	readonly IPv4_2="172.16.2.100"
	readonly IPv4_3="172.16.3.100"
	readonly IPv4_4="172.16.4.100"
	readonly IPv4_5="172.16.5.100"
	readonly IPv4_6="172.16.6.100"
	readonly IPv4_7="172.16.7.100"
	readonly IPv4_8="172.16.8.100"
	readonly IPv4_GRE="172.16.16.100"

	readonly IPv4_SRC=$IPv4_1
	readonly IPv4_DST=$IPv4_4

	readonly IPv6_1="fb01::1"
	readonly IPv6_2="fb02::1"
	readonly IPv6_3="fb03::1"
	readonly IPv6_4="fb04::1"
	readonly IPv6_5="fb05::1"
	readonly IPv6_6="fb06::1"
	readonly IPv6_7="fb07::1"
	readonly IPv6_8="fb08::1"
	readonly IPv6_GRE="fb10::1"

	readonly IPv6_SRC=$IPv6_1
	readonly IPv6_DST=$IPv6_4

	TEST_STATUS=0
	TESTS_SUCCEEDED=0
	TESTS_FAILED=0

	TMPFILE=""

	process_test_results()
	{
	if [[ "${TEST_STATUS}" -eq 0 ]] ; then
	echo "PASS"
	TESTS_SUCCEEDED=$((TESTS_SUCCEEDED+1))
	else
	echo "FAIL"
	TESTS_FAILED=$((TESTS_FAILED+1))
	fi
	}

	print_test_summary_and_exit()
	{
	echo "passed tests: ${TESTS_SUCCEEDED}"
	echo "failed tests: ${TESTS_FAILED}"
	if [ "${TESTS_FAILED}" -eq "0" ] ; then
	exit 0
	else
	exit 1
	fi
	}

	setup()
	{
	set -e # exit on error
	TEST_STATUS=0

	# create devices and namespaces
	ip netns add "${NS1}"
	ip netns add "${NS2}"
	ip netns add "${NS3}"

	# rp_filter gets confused by what these tests are doing, so disable it
	ip netns exec ${NS1} sysctl -wq net.ipv4.conf.all.rp_filter=0
	ip netns exec ${NS2} sysctl -wq net.ipv4.conf.all.rp_filter=0
	ip netns exec ${NS3} sysctl -wq net.ipv4.conf.all.rp_filter=0
	ip netns exec ${NS1} sysctl -wq net.ipv4.conf.default.rp_filter=0
	ip netns exec ${NS2} sysctl -wq net.ipv4.conf.default.rp_filter=0
	ip netns exec ${NS3} sysctl -wq net.ipv4.conf.default.rp_filter=0

	ip link add veth1 type veth peer name veth2
	ip link add veth3 type veth peer name veth4
	ip link add veth5 type veth peer name veth6
	ip link add veth7 type veth peer name veth8

	ip netns exec ${NS2} sysctl -wq net.ipv4.ip_forward=1
	ip netns exec ${NS2} sysctl -wq net.ipv6.conf.all.forwarding=1

	ip link set veth1 netns ${NS1}
	ip link set veth2 netns ${NS2}
	ip link set veth3 netns ${NS2}
	ip link set veth4 netns ${NS3}
	ip link set veth5 netns ${NS1}
	ip link set veth6 netns ${NS2}
	ip link set veth7 netns ${NS2}
	ip link set veth8 netns ${NS3}

	if [ ! -z "${VRF}" ] ; then
	ip -netns ${NS1} link add red type vrf table 1001
	ip -netns ${NS1} link set red up
	ip -netns ${NS1} route add table 1001 unreachable default metric 8192
	ip -netns ${NS1} -6 route add table 1001 unreachable default metric 8192
	ip -netns ${NS1} link set veth1 vrf red
	ip -netns ${NS1} link set veth5 vrf red

	ip -netns ${NS2} link add red type vrf table 1001
	ip -netns ${NS2} link set red up
	ip -netns ${NS2} route add table 1001 unreachable default metric 8192
	ip -netns ${NS2} -6 route add table 1001 unreachable default metric 8192
	ip -netns ${NS2} link set veth2 vrf red
	ip -netns ${NS2} link set veth3 vrf red
	ip -netns ${NS2} link set veth6 vrf red
	ip -netns ${NS2} link set veth7 vrf red
	fi

	# configure addesses: the top route (1-2-3-4)
	ip -netns ${NS1} addr add ${IPv4_1}/24 dev veth1
	ip -netns ${NS2} addr add ${IPv4_2}/24 dev veth2
	ip -netns ${NS2} addr add ${IPv4_3}/24 dev veth3
	ip -netns ${NS3} addr add ${IPv4_4}/24 dev veth4
	ip -netns ${NS1} -6 addr add ${IPv6_1}/128 nodad dev veth1
	ip -netns ${NS2} -6 addr add ${IPv6_2}/128 nodad dev veth2
	ip -netns ${NS2} -6 addr add ${IPv6_3}/128 nodad dev veth3
	ip -netns ${NS3} -6 addr add ${IPv6_4}/128 nodad dev veth4

	# configure addresses: the bottom route (5-6-7-8)
	ip -netns ${NS1} addr add ${IPv4_5}/24 dev veth5
	ip -netns ${NS2} addr add ${IPv4_6}/24 dev veth6
	ip -netns ${NS2} addr add ${IPv4_7}/24 dev veth7
	ip -netns ${NS3} addr add ${IPv4_8}/24 dev veth8
	ip -netns ${NS1} -6 addr add ${IPv6_5}/128 nodad dev veth5
	ip -netns ${NS2} -6 addr add ${IPv6_6}/128 nodad dev veth6
	ip -netns ${NS2} -6 addr add ${IPv6_7}/128 nodad dev veth7
	ip -netns ${NS3} -6 addr add ${IPv6_8}/128 nodad dev veth8

	ip -netns ${NS1} link set dev veth1 up
	ip -netns ${NS2} link set dev veth2 up
	ip -netns ${NS2} link set dev veth3 up
	ip -netns ${NS3} link set dev veth4 up
	ip -netns ${NS1} link set dev veth5 up
	ip -netns ${NS2} link set dev veth6 up
	ip -netns ${NS2} link set dev veth7 up
	ip -netns ${NS3} link set dev veth8 up

	# configure routes: IP_SRC -> veth1/IP_2 (= top route) default;
	# the bottom route to specific bottom addresses

	# NS1
	# top route
	ip -netns ${NS1} route add ${IPv4_2}/32 dev veth1 ${VRF}
	ip -netns ${NS1} route add default dev veth1 via ${IPv4_2} ${VRF} # go top by default
	ip -netns ${NS1} -6 route add ${IPv6_2}/128 dev veth1 ${VRF}
	ip -netns ${NS1} -6 route add default dev veth1 via ${IPv6_2} ${VRF} # go top by default
	# bottom route
	ip -netns ${NS1} route add ${IPv4_6}/32 dev veth5 ${VRF}
	ip -netns ${NS1} route add ${IPv4_7}/32 dev veth5 via ${IPv4_6} ${VRF}
	ip -netns ${NS1} route add ${IPv4_8}/32 dev veth5 via ${IPv4_6} ${VRF}
	ip -netns ${NS1} -6 route add ${IPv6_6}/128 dev veth5 ${VRF}
	ip -netns ${NS1} -6 route add ${IPv6_7}/128 dev veth5 via ${IPv6_6} ${VRF}
	ip -netns ${NS1} -6 route add ${IPv6_8}/128 dev veth5 via ${IPv6_6} ${VRF}

	# NS2
	# top route
	ip -netns ${NS2} route add ${IPv4_1}/32 dev veth2 ${VRF}
	ip -netns ${NS2} route add ${IPv4_4}/32 dev veth3 ${VRF}
	ip -netns ${NS2} -6 route add ${IPv6_1}/128 dev veth2 ${VRF}
	ip -netns ${NS2} -6 route add ${IPv6_4}/128 dev veth3 ${VRF}
	# bottom route
	ip -netns ${NS2} route add ${IPv4_5}/32 dev veth6 ${VRF}
	ip -netns ${NS2} route add ${IPv4_8}/32 dev veth7 ${VRF}
	ip -netns ${NS2} -6 route add ${IPv6_5}/128 dev veth6 ${VRF}
	ip -netns ${NS2} -6 route add ${IPv6_8}/128 dev veth7 ${VRF}

	# NS3
	# top route
	ip -netns ${NS3} route add ${IPv4_3}/32 dev veth4
	ip -netns ${NS3} route add ${IPv4_1}/32 dev veth4 via ${IPv4_3}
	ip -netns ${NS3} route add ${IPv4_2}/32 dev veth4 via ${IPv4_3}
	ip -netns ${NS3} -6 route add ${IPv6_3}/128 dev veth4
	ip -netns ${NS3} -6 route add ${IPv6_1}/128 dev veth4 via ${IPv6_3}
	ip -netns ${NS3} -6 route add ${IPv6_2}/128 dev veth4 via ${IPv6_3}
	# bottom route
	ip -netns ${NS3} route add ${IPv4_7}/32 dev veth8
	ip -netns ${NS3} route add ${IPv4_5}/32 dev veth8 via ${IPv4_7}
	ip -netns ${NS3} route add ${IPv4_6}/32 dev veth8 via ${IPv4_7}
	ip -netns ${NS3} -6 route add ${IPv6_7}/128 dev veth8
	ip -netns ${NS3} -6 route add ${IPv6_5}/128 dev veth8 via ${IPv6_7}
	ip -netns ${NS3} -6 route add ${IPv6_6}/128 dev veth8 via ${IPv6_7}

	# configure IPv4 GRE device in NS3, and a route to it via the "bottom" route
	ip -netns ${NS3} tunnel add gre_dev mode gre remote ${IPv4_1} local ${IPv4_GRE} ttl 255
	ip -netns ${NS3} link set gre_dev up
	ip -netns ${NS3} addr add ${IPv4_GRE} dev gre_dev
	ip -netns ${NS1} route add ${IPv4_GRE}/32 dev veth5 via ${IPv4_6} ${VRF}
	ip -netns ${NS2} route add ${IPv4_GRE}/32 dev veth7 via ${IPv4_8} ${VRF}


	# configure IPv6 GRE device in NS3, and a route to it via the "bottom" route
	ip -netns ${NS3} -6 tunnel add name gre6_dev mode ip6gre remote ${IPv6_1} local ${IPv6_GRE} ttl 255
	ip -netns ${NS3} link set gre6_dev up
	ip -netns ${NS3} -6 addr add ${IPv6_GRE} nodad dev gre6_dev
	ip -netns ${NS1} -6 route add ${IPv6_GRE}/128 dev veth5 via ${IPv6_6} ${VRF}
	ip -netns ${NS2} -6 route add ${IPv6_GRE}/128 dev veth7 via ${IPv6_8} ${VRF}

	TMPFILE=$(mktemp /tmp/test_lwt_ip_encap.XXXXXX)

	sleep 1 # reduce flakiness
	set +e
	}

	cleanup()
	{
	if [ -f ${TMPFILE} ] ; then
	rm ${TMPFILE}
	fi

	ip netns del ${NS1} 2> /dev/null
	ip netns del ${NS2} 2> /dev/null
	ip netns del ${NS3} 2> /dev/null
	}

	trap cleanup EXIT

	remove_routes_to_gredev()
	{
	ip -netns ${NS1} route del ${IPv4_GRE} dev veth5 ${VRF}
	ip -netns ${NS2} route del ${IPv4_GRE} dev veth7 ${VRF}
	ip -netns ${NS1} -6 route del ${IPv6_GRE}/128 dev veth5 ${VRF}
	ip -netns ${NS2} -6 route del ${IPv6_GRE}/128 dev veth7 ${VRF}
	}

	add_unreachable_routes_to_gredev()
	{
	ip -netns ${NS1} route add unreachable ${IPv4_GRE}/32 ${VRF}
	ip -netns ${NS2} route add unreachable ${IPv4_GRE}/32 ${VRF}
	ip -netns ${NS1} -6 route add unreachable ${IPv6_GRE}/128 ${VRF}
	ip -netns ${NS2} -6 route add unreachable ${IPv6_GRE}/128 ${VRF}
	}

	test_ping()
	{
	local readonly PROTO=$1
	local readonly EXPECTED=$2
	local RET=0

	if [ "${PROTO}" == "IPv4" ] ; then
	ip netns exec ${NS1} ping -c 1 -W 1 -I veth1 ${IPv4_DST} 2>&1 > /dev/null
	RET=$?
	elif [ "${PROTO}" == "IPv6" ] ; then
	ip netns exec ${NS1} ping6 -c 1 -W 6 -I veth1 ${IPv6_DST} 2>&1 > /dev/null
	RET=$?
	else
	echo " test_ping: unknown PROTO: ${PROTO}"
	TEST_STATUS=1
	fi

	if [ "0" != "${RET}" ]; then
	RET=1
	fi

	if [ "${EXPECTED}" != "${RET}" ] ; then
	echo " test_ping failed: expected: ${EXPECTED}; got ${RET}"
	TEST_STATUS=1
	fi
	}

	test_gso()
	{
	local readonly PROTO=$1
	local readonly PKT_SZ=5000
	local IP_DST=""
	: > ${TMPFILE} # trim the capture file

	# check that nc is present
	command -v nc >/dev/null 2>&1 \|\| \
	{ echo >&2 "nc is not available: skipping TSO tests"; return; }

	# listen on port 9000, capture TCP into $TMPFILE
	if [ "${PROTO}" == "IPv4" ] ; then
	IP_DST=${IPv4_DST}
	ip netns exec ${NS3} bash -c \
	"nc -4 -l -p 9000 > ${TMPFILE} &"
	elif [ "${PROTO}" == "IPv6" ] ; then
	IP_DST=${IPv6_DST}
	ip netns exec ${NS3} bash -c \
	"nc -6 -l -p 9000 > ${TMPFILE} &"
	RET=$?
	else
	echo " test_gso: unknown PROTO: ${PROTO}"
	TEST_STATUS=1
	fi
	sleep 1 # let nc start listening

	# send a packet larger than MTU
	ip netns exec ${NS1} bash -c \
	"dd if=/dev/zero bs=$PKT_SZ count=1 > /dev/tcp/${IP_DST}/9000 2>/dev/null"
	sleep 2 # let the packet get delivered

	# verify we received all expected bytes
	SZ=$(stat -c %s ${TMPFILE})
	if [ "$SZ" != "$PKT_SZ" ] ; then
	echo " test_gso failed: ${PROTO}"
	TEST_STATUS=1
	fi
	}

	test_egress()
	{
	local readonly ENCAP=$1
	echo "starting egress ${ENCAP} encap test ${VRF}"
	setup

	# by default, pings work
	test_ping IPv4 0
	test_ping IPv6 0

	# remove NS2->DST routes, ping fails
	ip -netns ${NS2} route del ${IPv4_DST}/32 dev veth3 ${VRF}
	ip -netns ${NS2} -6 route del ${IPv6_DST}/128 dev veth3 ${VRF}
	test_ping IPv4 1
	test_ping IPv6 1

	# install replacement routes (LWT/eBPF), pings succeed
	if [ "${ENCAP}" == "IPv4" ] ; then
	ip -netns ${NS1} route add ${IPv4_DST} encap bpf xmit obj \
	test_lwt_ip_encap.o sec encap_gre dev veth1 ${VRF}
	ip -netns ${NS1} -6 route add ${IPv6_DST} encap bpf xmit obj \
	test_lwt_ip_encap.o sec encap_gre dev veth1 ${VRF}
	elif [ "${ENCAP}" == "IPv6" ] ; then
	ip -netns ${NS1} route add ${IPv4_DST} encap bpf xmit obj \
	test_lwt_ip_encap.o sec encap_gre6 dev veth1 ${VRF}
	ip -netns ${NS1} -6 route add ${IPv6_DST} encap bpf xmit obj \
	test_lwt_ip_encap.o sec encap_gre6 dev veth1 ${VRF}
	else
	echo " unknown encap ${ENCAP}"
	TEST_STATUS=1
	fi
	test_ping IPv4 0
	test_ping IPv6 0

	# skip GSO tests with VRF: VRF routing needs properly assigned
	# source IP/device, which is easy to do with ping and hard with dd/nc.
	if [ -z "${VRF}" ] ; then
	test_gso IPv4
	test_gso IPv6
	fi

	# a negative test: remove routes to GRE devices: ping fails
	remove_routes_to_gredev
	test_ping IPv4 1
	test_ping IPv6 1

	# another negative test
	add_unreachable_routes_to_gredev
	test_ping IPv4 1
	test_ping IPv6 1

	cleanup
	process_test_results
	}

	test_ingress()
	{
	local readonly ENCAP=$1
	echo "starting ingress ${ENCAP} encap test ${VRF}"
	setup

	# need to wait a bit for IPv6 to autoconf, otherwise
	# ping6 sometimes fails with "unable to bind to address"

	# by default, pings work
	test_ping IPv4 0
	test_ping IPv6 0

	# remove NS2->DST routes, pings fail
	ip -netns ${NS2} route del ${IPv4_DST}/32 dev veth3 ${VRF}
	ip -netns ${NS2} -6 route del ${IPv6_DST}/128 dev veth3 ${VRF}
	test_ping IPv4 1
	test_ping IPv6 1

	# install replacement routes (LWT/eBPF), pings succeed
	if [ "${ENCAP}" == "IPv4" ] ; then
	ip -netns ${NS2} route add ${IPv4_DST} encap bpf in obj \
	test_lwt_ip_encap.o sec encap_gre dev veth2 ${VRF}
	ip -netns ${NS2} -6 route add ${IPv6_DST} encap bpf in obj \
	test_lwt_ip_encap.o sec encap_gre dev veth2 ${VRF}
	elif [ "${ENCAP}" == "IPv6" ] ; then
	ip -netns ${NS2} route add ${IPv4_DST} encap bpf in obj \
	test_lwt_ip_encap.o sec encap_gre6 dev veth2 ${VRF}
	ip -netns ${NS2} -6 route add ${IPv6_DST} encap bpf in obj \
	test_lwt_ip_encap.o sec encap_gre6 dev veth2 ${VRF}
	else
	echo "FAIL: unknown encap ${ENCAP}"
	TEST_STATUS=1
	fi
	test_ping IPv4 0
	test_ping IPv6 0

	# a negative test: remove routes to GRE devices: ping fails
	remove_routes_to_gredev
	test_ping IPv4 1
	test_ping IPv6 1

	# another negative test
	add_unreachable_routes_to_gredev
	test_ping IPv4 1
	test_ping IPv6 1

	cleanup
	process_test_results
	}

	VRF=""
	test_egress IPv4
	test_egress IPv6
	test_ingress IPv4
	test_ingress IPv6

	VRF="vrf red"
	test_egress IPv4
	test_egress IPv6
	test_ingress IPv4
	test_ingress IPv6

	print_test_summary_and_exit