tools/testing/selftests/net/traceroute.sh - linux - Git at Google

 #!/bin/bash
 # SPDX-License-Identifier: GPL-2.0
 #
 # Run traceroute/traceroute6 tests
 #

 source lib.sh
 VERBOSE=0
 PAUSE_ON_FAIL=no

 ################################################################################
 #
 log_test()
 {
 	local rc=$1
 	local expected=$2
 	local msg="$3"

 	if [ ${rc} -eq ${expected} ]; then
 		printf "TEST: %-60s  [ OK ]\n" "${msg}"
 		nsuccess=$((nsuccess+1))
 	else
 		ret=1
 		nfail=$((nfail+1))
 		printf "TEST: %-60s  [FAIL]\n" "${msg}"
 		if [ "${PAUSE_ON_FAIL}" = "yes" ]; then
 			echo
 			echo "hit enter to continue, 'q' to quit"
 			read a
 			[ "$a" = "q" ] && exit 1
 		fi
 	fi
 }

 run_cmd()
 {
 	local ns
 	local cmd
 	local out
 	local rc

 	ns="$1"
 	shift
 	cmd="$*"

 	if [ "$VERBOSE" = "1" ]; then
 		printf "    COMMAND: $cmd\n"
 	fi

 	out=$(eval ip netns exec ${ns} ${cmd} 2>&1)
 	rc=$?
 	if [ "$VERBOSE" = "1" -a -n "$out" ]; then
 		echo "    $out"
 	fi

 	[ "$VERBOSE" = "1" ] && echo

 	return $rc
 }

 ################################################################################
 # create namespaces and interconnects

 create_ns()
 {
 	local ns=$1
 	local addr=$2
 	local addr6=$3

 	[ -z "${addr}" ] && addr="-"
 	[ -z "${addr6}" ] && addr6="-"

 	if [ "${addr}" != "-" ]; then
 		ip netns exec ${ns} ip addr add dev lo ${addr}
 	fi
 	if [ "${addr6}" != "-" ]; then
 		ip netns exec ${ns} ip -6 addr add dev lo ${addr6}
 	fi

 	ip netns exec ${ns} ip ro add unreachable default metric 8192
 	ip netns exec ${ns} ip -6 ro add unreachable default metric 8192

 	ip netns exec ${ns} sysctl -qw net.ipv4.ip_forward=1
 	ip netns exec ${ns} sysctl -qw net.ipv6.conf.all.keep_addr_on_down=1
 	ip netns exec ${ns} sysctl -qw net.ipv6.conf.all.forwarding=1
 	ip netns exec ${ns} sysctl -qw net.ipv6.conf.default.forwarding=1
 	ip netns exec ${ns} sysctl -qw net.ipv6.conf.default.accept_dad=0
 }

 # create veth pair to connect namespaces and apply addresses.
 connect_ns()
 {
 	local ns1=$1
 	local ns1_dev=$2
 	local ns1_addr=$3
 	local ns1_addr6=$4
 	local ns2=$5
 	local ns2_dev=$6
 	local ns2_addr=$7
 	local ns2_addr6=$8

 	ip netns exec ${ns1} ip li add ${ns1_dev} type veth peer name tmp
 	ip netns exec ${ns1} ip li set ${ns1_dev} up
 	ip netns exec ${ns1} ip li set tmp netns ${ns2} name ${ns2_dev}
 	ip netns exec ${ns2} ip li set ${ns2_dev} up

 	if [ "${ns1_addr}" != "-" ]; then
 		ip netns exec ${ns1} ip addr add dev ${ns1_dev} ${ns1_addr}
 	fi

 	if [ "${ns2_addr}" != "-" ]; then
 		ip netns exec ${ns2} ip addr add dev ${ns2_dev} ${ns2_addr}
 	fi

 	if [ "${ns1_addr6}" != "-" ]; then
 		ip netns exec ${ns1} ip addr add dev ${ns1_dev} ${ns1_addr6}
 	fi

 	if [ "${ns2_addr6}" != "-" ]; then
 		ip netns exec ${ns2} ip addr add dev ${ns2_dev} ${ns2_addr6}
 	fi
 }

 ################################################################################
 # traceroute6 test
 #
 # Verify that in this scenario
 #
 #        ------------------------ N2
 #         |                    |
 #       ------              ------  N3  ----
 #       | R1 |              | R2 |------|H2|
 #       ------              ------      ----
 #         |                    |
 #        ------------------------ N1
 #                  |
 #                 ----
 #                 |H1|
 #                 ----
 #
 # where H1's default route goes through R1 and R1's default route goes
 # through R2 over N2, traceroute6 from H1 to H2 reports R2's address
 # on N2 and not N1.
 #
 # Addresses are assigned as follows:
 #
 # N1: 2000:101::/64
 # N2: 2000:102::/64
 # N3: 2000:103::/64
 #
 # R1's host part of address: 1
 # R2's host part of address: 2
 # H1's host part of address: 3
 # H2's host part of address: 4
 #
 # For example:
 # the IPv6 address of R1's interface on N2 is 2000:102::1/64

 cleanup_traceroute6()
 {
 	cleanup_ns $h1 $h2 $r1 $r2
 }

 setup_traceroute6()
 {
 	brdev=br0

 	# start clean
 	cleanup_traceroute6

 	set -e
 	setup_ns h1 h2 r1 r2
 	create_ns $h1
 	create_ns $h2
 	create_ns $r1
 	create_ns $r2

 	# Setup N3
 	connect_ns $r2 eth3 - 2000:103::2/64 $h2 eth3 - 2000:103::4/64
 	ip netns exec $h2 ip route add default via 2000:103::2

 	# Setup N2
 	connect_ns $r1 eth2 - 2000:102::1/64 $r2 eth2 - 2000:102::2/64
 	ip netns exec $r1 ip route add default via 2000:102::2

 	# Setup N1. host-1 and router-2 connect to a bridge in router-1.
 	ip netns exec $r1 ip link add name ${brdev} type bridge
 	ip netns exec $r1 ip link set ${brdev} up
 	ip netns exec $r1 ip addr add 2000:101::1/64 dev ${brdev}

 	connect_ns $h1 eth0 - 2000:101::3/64 $r1 eth0 - -
 	ip netns exec $r1 ip link set dev eth0 master ${brdev}
 	ip netns exec $h1 ip route add default via 2000:101::1

 	connect_ns $r2 eth1 - 2000:101::2/64 $r1 eth1 - -
 	ip netns exec $r1 ip link set dev eth1 master ${brdev}

 	# Prime the network
 	ip netns exec $h1 ping6 -c5 2000:103::4 >/dev/null 2>&1

 	set +e
 }

 run_traceroute6()
 {
 	if [ ! -x "$(command -v traceroute6)" ]; then
 		echo "SKIP: Could not run IPV6 test without traceroute6"
 		return
 	fi

 	setup_traceroute6

 	# traceroute6 host-2 from host-1 (expects 2000:102::2)
 	run_cmd $h1 "traceroute6 2000:103::4 | grep -q 2000:102::2"
 	log_test $? 0 "IPV6 traceroute"

 	cleanup_traceroute6
 }

 ################################################################################
 # traceroute test
 #
 # Verify that traceroute from H1 to H2 shows 1.0.1.1 in this scenario
 #
 #                    1.0.3.1/24
 # ---- 1.0.1.3/24    1.0.1.1/24 ---- 1.0.2.1/24    1.0.2.4/24 ----
 # |H1|--------------------------|R1|--------------------------|H2|
 # ----            N1            ----            N2            ----
 #
 # where net.ipv4.icmp_errors_use_inbound_ifaddr is set on R1 and
 # 1.0.3.1/24 and 1.0.1.1/24 are respectively R1's primary and secondary
 # address on N1.
 #

 cleanup_traceroute()
 {
 	cleanup_ns $h1 $h2 $router
 }

 setup_traceroute()
 {
 	# start clean
 	cleanup_traceroute

 	set -e
 	setup_ns h1 h2 router
 	create_ns $h1
 	create_ns $h2
 	create_ns $router

 	connect_ns $h1 eth0 1.0.1.3/24 - \
 	           $router eth1 1.0.3.1/24 -
 	ip netns exec $h1 ip route add default via 1.0.1.1

 	ip netns exec $router ip addr add 1.0.1.1/24 dev eth1
 	ip netns exec $router sysctl -qw \
 				net.ipv4.icmp_errors_use_inbound_ifaddr=1

 	connect_ns $h2 eth0 1.0.2.4/24 - \
 	           $router eth2 1.0.2.1/24 -
 	ip netns exec $h2 ip route add default via 1.0.2.1

 	# Prime the network
 	ip netns exec $h1 ping -c5 1.0.2.4 >/dev/null 2>&1

 	set +e
 }

 run_traceroute()
 {
 	if [ ! -x "$(command -v traceroute)" ]; then
 		echo "SKIP: Could not run IPV4 test without traceroute"
 		return
 	fi

 	setup_traceroute

 	# traceroute host-2 from host-1 (expects 1.0.1.1). Takes a while.
 	run_cmd $h1 "traceroute 1.0.2.4 | grep -q 1.0.1.1"
 	log_test $? 0 "IPV4 traceroute"

 	cleanup_traceroute
 }

 ################################################################################
 # Run tests

 run_tests()
 {
 	run_traceroute6
 	run_traceroute
 }

 ################################################################################
 # main

 declare -i nfail=0
 declare -i nsuccess=0

 while getopts :pv o
 do
 	case $o in
 		p) PAUSE_ON_FAIL=yes;;
 		v) VERBOSE=$(($VERBOSE + 1));;
 		*) exit 1;;
 	esac
 done

 run_tests

 printf "\nTests passed: %3d\n" ${nsuccess}
 printf "Tests failed: %3d\n"   ${nfail}
	#!/bin/bash
	# SPDX-License-Identifier: GPL-2.0
	#
	# Run traceroute/traceroute6 tests
	#

	source lib.sh
	VERBOSE=0
	PAUSE_ON_FAIL=no

	################################################################################
	#
	log_test()
	{
	local rc=$1
	local expected=$2
	local msg="$3"

	if [ ${rc} -eq ${expected} ]; then
	printf "TEST: %-60s [ OK ]\n" "${msg}"
	nsuccess=$((nsuccess+1))
	else
	ret=1
	nfail=$((nfail+1))
	printf "TEST: %-60s [FAIL]\n" "${msg}"
	if [ "${PAUSE_ON_FAIL}" = "yes" ]; then
	echo
	echo "hit enter to continue, 'q' to quit"
	read a
	[ "$a" = "q" ] && exit 1
	fi
	fi
	}

	run_cmd()
	{
	local ns
	local cmd
	local out
	local rc

	ns="$1"
	shift
	cmd="$*"

	if [ "$VERBOSE" = "1" ]; then
	printf " COMMAND: $cmd\n"
	fi

	out=$(eval ip netns exec ${ns} ${cmd} 2>&1)
	rc=$?
	if [ "$VERBOSE" = "1" -a -n "$out" ]; then
	echo " $out"
	fi

	[ "$VERBOSE" = "1" ] && echo

	return $rc
	}

	################################################################################
	# create namespaces and interconnects

	create_ns()
	{
	local ns=$1
	local addr=$2
	local addr6=$3

	[ -z "${addr}" ] && addr="-"
	[ -z "${addr6}" ] && addr6="-"

	if [ "${addr}" != "-" ]; then
	ip netns exec ${ns} ip addr add dev lo ${addr}
	fi
	if [ "${addr6}" != "-" ]; then
	ip netns exec ${ns} ip -6 addr add dev lo ${addr6}
	fi

	ip netns exec ${ns} ip ro add unreachable default metric 8192
	ip netns exec ${ns} ip -6 ro add unreachable default metric 8192

	ip netns exec ${ns} sysctl -qw net.ipv4.ip_forward=1
	ip netns exec ${ns} sysctl -qw net.ipv6.conf.all.keep_addr_on_down=1
	ip netns exec ${ns} sysctl -qw net.ipv6.conf.all.forwarding=1
	ip netns exec ${ns} sysctl -qw net.ipv6.conf.default.forwarding=1
	ip netns exec ${ns} sysctl -qw net.ipv6.conf.default.accept_dad=0
	}

	# create veth pair to connect namespaces and apply addresses.
	connect_ns()
	{
	local ns1=$1
	local ns1_dev=$2
	local ns1_addr=$3
	local ns1_addr6=$4
	local ns2=$5
	local ns2_dev=$6
	local ns2_addr=$7
	local ns2_addr6=$8

	ip netns exec ${ns1} ip li add ${ns1_dev} type veth peer name tmp
	ip netns exec ${ns1} ip li set ${ns1_dev} up
	ip netns exec ${ns1} ip li set tmp netns ${ns2} name ${ns2_dev}
	ip netns exec ${ns2} ip li set ${ns2_dev} up

	if [ "${ns1_addr}" != "-" ]; then
	ip netns exec ${ns1} ip addr add dev ${ns1_dev} ${ns1_addr}
	fi

	if [ "${ns2_addr}" != "-" ]; then
	ip netns exec ${ns2} ip addr add dev ${ns2_dev} ${ns2_addr}
	fi

	if [ "${ns1_addr6}" != "-" ]; then
	ip netns exec ${ns1} ip addr add dev ${ns1_dev} ${ns1_addr6}
	fi

	if [ "${ns2_addr6}" != "-" ]; then
	ip netns exec ${ns2} ip addr add dev ${ns2_dev} ${ns2_addr6}
	fi
	}

	################################################################################
	# traceroute6 test
	#
	# Verify that in this scenario
	#
	# ------------------------ N2
	# \| \|
	# ------ ------ N3 ----
	# \| R1 \| \| R2 \|------\|H2\|
	# ------ ------ ----
	# \| \|
	# ------------------------ N1
	# \|
	# ----
	# \|H1\|
	# ----
	#
	# where H1's default route goes through R1 and R1's default route goes
	# through R2 over N2, traceroute6 from H1 to H2 reports R2's address
	# on N2 and not N1.
	#
	# Addresses are assigned as follows:
	#
	# N1: 2000:101::/64
	# N2: 2000:102::/64
	# N3: 2000:103::/64
	#
	# R1's host part of address: 1
	# R2's host part of address: 2
	# H1's host part of address: 3
	# H2's host part of address: 4
	#
	# For example:
	# the IPv6 address of R1's interface on N2 is 2000:102::1/64

	cleanup_traceroute6()
	{
	cleanup_ns $h1 $h2 $r1 $r2
	}

	setup_traceroute6()
	{
	brdev=br0

	# start clean
	cleanup_traceroute6

	set -e
	setup_ns h1 h2 r1 r2
	create_ns $h1
	create_ns $h2
	create_ns $r1
	create_ns $r2

	# Setup N3
	connect_ns $r2 eth3 - 2000:103::2/64 $h2 eth3 - 2000:103::4/64
	ip netns exec $h2 ip route add default via 2000:103::2

	# Setup N2
	connect_ns $r1 eth2 - 2000:102::1/64 $r2 eth2 - 2000:102::2/64
	ip netns exec $r1 ip route add default via 2000:102::2

	# Setup N1. host-1 and router-2 connect to a bridge in router-1.
	ip netns exec $r1 ip link add name ${brdev} type bridge
	ip netns exec $r1 ip link set ${brdev} up
	ip netns exec $r1 ip addr add 2000:101::1/64 dev ${brdev}

	connect_ns $h1 eth0 - 2000:101::3/64 $r1 eth0 - -
	ip netns exec $r1 ip link set dev eth0 master ${brdev}
	ip netns exec $h1 ip route add default via 2000:101::1

	connect_ns $r2 eth1 - 2000:101::2/64 $r1 eth1 - -
	ip netns exec $r1 ip link set dev eth1 master ${brdev}

	# Prime the network
	ip netns exec $h1 ping6 -c5 2000:103::4 >/dev/null 2>&1

	set +e
	}

	run_traceroute6()
	{
	if [ ! -x "$(command -v traceroute6)" ]; then
	echo "SKIP: Could not run IPV6 test without traceroute6"
	return
	fi

	setup_traceroute6

	# traceroute6 host-2 from host-1 (expects 2000:102::2)
	run_cmd $h1 "traceroute6 2000:103::4 \| grep -q 2000:102::2"
	log_test $? 0 "IPV6 traceroute"

	cleanup_traceroute6
	}

	################################################################################
	# traceroute test
	#
	# Verify that traceroute from H1 to H2 shows 1.0.1.1 in this scenario
	#
	# 1.0.3.1/24
	# ---- 1.0.1.3/24 1.0.1.1/24 ---- 1.0.2.1/24 1.0.2.4/24 ----
	# \|H1\|--------------------------\|R1\|--------------------------\|H2\|
	# ---- N1 ---- N2 ----
	#
	# where net.ipv4.icmp_errors_use_inbound_ifaddr is set on R1 and
	# 1.0.3.1/24 and 1.0.1.1/24 are respectively R1's primary and secondary
	# address on N1.
	#

	cleanup_traceroute()
	{
	cleanup_ns $h1 $h2 $router
	}

	setup_traceroute()
	{
	# start clean
	cleanup_traceroute

	set -e
	setup_ns h1 h2 router
	create_ns $h1
	create_ns $h2
	create_ns $router

	connect_ns $h1 eth0 1.0.1.3/24 - \
	$router eth1 1.0.3.1/24 -
	ip netns exec $h1 ip route add default via 1.0.1.1

	ip netns exec $router ip addr add 1.0.1.1/24 dev eth1
	ip netns exec $router sysctl -qw \
	net.ipv4.icmp_errors_use_inbound_ifaddr=1

	connect_ns $h2 eth0 1.0.2.4/24 - \
	$router eth2 1.0.2.1/24 -
	ip netns exec $h2 ip route add default via 1.0.2.1

	# Prime the network
	ip netns exec $h1 ping -c5 1.0.2.4 >/dev/null 2>&1

	set +e
	}

	run_traceroute()
	{
	if [ ! -x "$(command -v traceroute)" ]; then
	echo "SKIP: Could not run IPV4 test without traceroute"
	return
	fi

	setup_traceroute

	# traceroute host-2 from host-1 (expects 1.0.1.1). Takes a while.
	run_cmd $h1 "traceroute 1.0.2.4 \| grep -q 1.0.1.1"
	log_test $? 0 "IPV4 traceroute"

	cleanup_traceroute
	}

	################################################################################
	# Run tests

	run_tests()
	{
	run_traceroute6
	run_traceroute
	}

	################################################################################
	# main

	declare -i nfail=0
	declare -i nsuccess=0

	while getopts :pv o
	do
	case $o in
	p) PAUSE_ON_FAIL=yes;;
	v) VERBOSE=$(($VERBOSE + 1));;
	*) exit 1;;
	esac
	done

	run_tests

	printf "\nTests passed: %3d\n" ${nsuccess}
	printf "Tests failed: %3d\n" ${nfail}