tools/testing/selftests/netfilter/conntrack_vrf.sh - linux - Git at Google

 #!/bin/sh

 # This script demonstrates interaction of conntrack and vrf.
 # The vrf driver calls the netfilter hooks again, with oif/iif
 # pointing at the VRF device.
 #
 # For ingress, this means first iteration has iifname of lower/real
 # device.  In this script, thats veth0.
 # Second iteration is iifname set to vrf device, tvrf in this script.
 #
 # For egress, this is reversed: first iteration has the vrf device,
 # second iteration is done with the lower/real/veth0 device.
 #
 # test_ct_zone_in demonstrates unexpected change of nftables
 # behavior # caused by commit 09e856d54bda5f28 "vrf: Reset skb conntrack
 # connection on VRF rcv"
 #
 # It was possible to assign conntrack zone to a packet (or mark it for
 # `notracking`) in the prerouting chain before conntrack, based on real iif.
 #
 # After the change, the zone assignment is lost and the zone is assigned based
 # on the VRF master interface (in case such a rule exists).
 # assignment is lost. Instead, assignment based on the `iif` matching
 # Thus it is impossible to distinguish packets based on the original
 # interface.
 #
 # test_masquerade_vrf and test_masquerade_veth0 demonstrate the problem
 # that was supposed to be fixed by the commit mentioned above to make sure
 # that any fix to test case 1 won't break masquerade again.

 ksft_skip=4

 IP0=172.30.30.1
 IP1=172.30.30.2
 PFXL=30
 ret=0

 sfx=$(mktemp -u "XXXXXXXX")
 ns0="ns0-$sfx"
 ns1="ns1-$sfx"

 cleanup()
 {
 	ip netns pids $ns0 | xargs kill 2>/dev/null
 	ip netns pids $ns1 | xargs kill 2>/dev/null

 	ip netns del $ns0 $ns1
 }

 nft --version > /dev/null 2>&1
 if [ $? -ne 0 ];then
 	echo "SKIP: Could not run test without nft tool"
 	exit $ksft_skip
 fi

 ip -Version > /dev/null 2>&1
 if [ $? -ne 0 ];then
 	echo "SKIP: Could not run test without ip tool"
 	exit $ksft_skip
 fi

 ip netns add "$ns0"
 if [ $? -ne 0 ];then
 	echo "SKIP: Could not create net namespace $ns0"
 	exit $ksft_skip
 fi
 ip netns add "$ns1"

 trap cleanup EXIT

 ip netns exec $ns0 sysctl -q -w net.ipv4.conf.default.rp_filter=0
 ip netns exec $ns0 sysctl -q -w net.ipv4.conf.all.rp_filter=0
 ip netns exec $ns0 sysctl -q -w net.ipv4.conf.all.rp_filter=0

 ip link add veth0 netns "$ns0" type veth peer name veth0 netns "$ns1" > /dev/null 2>&1
 if [ $? -ne 0 ];then
 	echo "SKIP: Could not add veth device"
 	exit $ksft_skip
 fi

 ip -net $ns0 li add tvrf type vrf table 9876
 if [ $? -ne 0 ];then
 	echo "SKIP: Could not add vrf device"
 	exit $ksft_skip
 fi

 ip -net $ns0 li set lo up

 ip -net $ns0 li set veth0 master tvrf
 ip -net $ns0 li set tvrf up
 ip -net $ns0 li set veth0 up
 ip -net $ns1 li set veth0 up

 ip -net $ns0 addr add $IP0/$PFXL dev veth0
 ip -net $ns1 addr add $IP1/$PFXL dev veth0

 ip netns exec $ns1 iperf3 -s > /dev/null 2>&1&
 if [ $? -ne 0 ];then
 	echo "SKIP: Could not start iperf3"
 	exit $ksft_skip
 fi

 # test vrf ingress handling.
 # The incoming connection should be placed in conntrack zone 1,
 # as decided by the first iteration of the ruleset.
 test_ct_zone_in()
 {
 ip netns exec $ns0 nft -f - <<EOF
 table testct {
 	chain rawpre {
 		type filter hook prerouting priority raw;

 		iif { veth0, tvrf } counter meta nftrace set 1
 		iif veth0 counter ct zone set 1 counter return
 		iif tvrf counter ct zone set 2 counter return
 		ip protocol icmp counter
 		notrack counter
 	}

 	chain rawout {
 		type filter hook output priority raw;

 		oif veth0 counter ct zone set 1 counter return
 		oif tvrf counter ct zone set 2 counter return
 		notrack counter
 	}
 }
 EOF
 	ip netns exec $ns1 ping -W 1 -c 1 -I veth0 $IP0 > /dev/null

 	# should be in zone 1, not zone 2
 	count=$(ip netns exec $ns0 conntrack -L -s $IP1 -d $IP0 -p icmp --zone 1 2>/dev/null | wc -l)
 	if [ $count -eq 1 ]; then
 		echo "PASS: entry found in conntrack zone 1"
 	else
 		echo "FAIL: entry not found in conntrack zone 1"
 		count=$(ip netns exec $ns0 conntrack -L -s $IP1 -d $IP0 -p icmp --zone 2 2> /dev/null | wc -l)
 		if [ $count -eq 1 ]; then
 			echo "FAIL: entry found in zone 2 instead"
 		else
 			echo "FAIL: entry not in zone 1 or 2, dumping table"
 			ip netns exec $ns0 conntrack -L
 			ip netns exec $ns0 nft list ruleset
 		fi
 	fi
 }

 # add masq rule that gets evaluated w. outif set to vrf device.
 # This tests the first iteration of the packet through conntrack,
 # oifname is the vrf device.
 test_masquerade_vrf()
 {
 	ip netns exec $ns0 conntrack -F 2>/dev/null

 ip netns exec $ns0 nft -f - <<EOF
 flush ruleset
 table ip nat {
 	chain postrouting {
 		type nat hook postrouting priority 0;
 		# NB: masquerade should always be combined with 'oif(name) bla',
 		# lack of this is intentional here, we want to exercise double-snat.
 		ip saddr 172.30.30.0/30 counter masquerade random
 	}
 }
 EOF
 	ip netns exec $ns0 ip vrf exec tvrf iperf3 -t 1 -c $IP1 >/dev/null
 	if [ $? -ne 0 ]; then
 		echo "FAIL: iperf3 connect failure with masquerade + sport rewrite on vrf device"
 		ret=1
 		return
 	fi

 	# must also check that nat table was evaluated on second (lower device) iteration.
 	ip netns exec $ns0 nft list table ip nat |grep -q 'counter packets 2'
 	if [ $? -eq 0 ]; then
 		echo "PASS: iperf3 connect with masquerade + sport rewrite on vrf device"
 	else
 		echo "FAIL: vrf masq rule has unexpected counter value"
 		ret=1
 	fi
 }

 # add masq rule that gets evaluated w. outif set to veth device.
 # This tests the 2nd iteration of the packet through conntrack,
 # oifname is the lower device (veth0 in this case).
 test_masquerade_veth()
 {
 	ip netns exec $ns0 conntrack -F 2>/dev/null
 ip netns exec $ns0 nft -f - <<EOF
 flush ruleset
 table ip nat {
 	chain postrouting {
 		type nat hook postrouting priority 0;
 		meta oif veth0 ip saddr 172.30.30.0/30 counter masquerade random
 	}
 }
 EOF
 	ip netns exec $ns0 ip vrf exec tvrf iperf3 -t 1 -c $IP1 > /dev/null
 	if [ $? -ne 0 ]; then
 		echo "FAIL: iperf3 connect failure with masquerade + sport rewrite on veth device"
 		ret=1
 		return
 	fi

 	# must also check that nat table was evaluated on second (lower device) iteration.
 	ip netns exec $ns0 nft list table ip nat |grep -q 'counter packets 2'
 	if [ $? -eq 0 ]; then
 		echo "PASS: iperf3 connect with masquerade + sport rewrite on veth device"
 	else
 		echo "FAIL: vrf masq rule has unexpected counter value"
 		ret=1
 	fi
 }

 test_ct_zone_in
 test_masquerade_vrf
 test_masquerade_veth

 exit $ret
	#!/bin/sh

	# This script demonstrates interaction of conntrack and vrf.
	# The vrf driver calls the netfilter hooks again, with oif/iif
	# pointing at the VRF device.
	#
	# For ingress, this means first iteration has iifname of lower/real
	# device. In this script, thats veth0.
	# Second iteration is iifname set to vrf device, tvrf in this script.
	#
	# For egress, this is reversed: first iteration has the vrf device,
	# second iteration is done with the lower/real/veth0 device.
	#
	# test_ct_zone_in demonstrates unexpected change of nftables
	# behavior # caused by commit 09e856d54bda5f28 "vrf: Reset skb conntrack
	# connection on VRF rcv"
	#
	# It was possible to assign conntrack zone to a packet (or mark it for
	# `notracking`) in the prerouting chain before conntrack, based on real iif.
	#
	# After the change, the zone assignment is lost and the zone is assigned based
	# on the VRF master interface (in case such a rule exists).
	# assignment is lost. Instead, assignment based on the `iif` matching
	# Thus it is impossible to distinguish packets based on the original
	# interface.
	#
	# test_masquerade_vrf and test_masquerade_veth0 demonstrate the problem
	# that was supposed to be fixed by the commit mentioned above to make sure
	# that any fix to test case 1 won't break masquerade again.

	ksft_skip=4

	IP0=172.30.30.1
	IP1=172.30.30.2
	PFXL=30
	ret=0

	sfx=$(mktemp -u "XXXXXXXX")
	ns0="ns0-$sfx"
	ns1="ns1-$sfx"

	cleanup()
	{
	ip netns pids $ns0 \| xargs kill 2>/dev/null
	ip netns pids $ns1 \| xargs kill 2>/dev/null

	ip netns del $ns0 $ns1
	}

	nft --version > /dev/null 2>&1
	if [ $? -ne 0 ];then
	echo "SKIP: Could not run test without nft tool"
	exit $ksft_skip
	fi

	ip -Version > /dev/null 2>&1
	if [ $? -ne 0 ];then
	echo "SKIP: Could not run test without ip tool"
	exit $ksft_skip
	fi

	ip netns add "$ns0"
	if [ $? -ne 0 ];then
	echo "SKIP: Could not create net namespace $ns0"
	exit $ksft_skip
	fi
	ip netns add "$ns1"

	trap cleanup EXIT

	ip netns exec $ns0 sysctl -q -w net.ipv4.conf.default.rp_filter=0
	ip netns exec $ns0 sysctl -q -w net.ipv4.conf.all.rp_filter=0
	ip netns exec $ns0 sysctl -q -w net.ipv4.conf.all.rp_filter=0

	ip link add veth0 netns "$ns0" type veth peer name veth0 netns "$ns1" > /dev/null 2>&1
	if [ $? -ne 0 ];then
	echo "SKIP: Could not add veth device"
	exit $ksft_skip
	fi

	ip -net $ns0 li add tvrf type vrf table 9876
	if [ $? -ne 0 ];then
	echo "SKIP: Could not add vrf device"
	exit $ksft_skip
	fi

	ip -net $ns0 li set lo up

	ip -net $ns0 li set veth0 master tvrf
	ip -net $ns0 li set tvrf up
	ip -net $ns0 li set veth0 up
	ip -net $ns1 li set veth0 up

	ip -net $ns0 addr add $IP0/$PFXL dev veth0
	ip -net $ns1 addr add $IP1/$PFXL dev veth0

	ip netns exec $ns1 iperf3 -s > /dev/null 2>&1&
	if [ $? -ne 0 ];then
	echo "SKIP: Could not start iperf3"
	exit $ksft_skip
	fi

	# test vrf ingress handling.
	# The incoming connection should be placed in conntrack zone 1,
	# as decided by the first iteration of the ruleset.
	test_ct_zone_in()
	{
	ip netns exec $ns0 nft -f - <<EOF
	table testct {
	chain rawpre {
	type filter hook prerouting priority raw;

	iif { veth0, tvrf } counter meta nftrace set 1
	iif veth0 counter ct zone set 1 counter return
	iif tvrf counter ct zone set 2 counter return
	ip protocol icmp counter
	notrack counter
	}

	chain rawout {
	type filter hook output priority raw;

	oif veth0 counter ct zone set 1 counter return
	oif tvrf counter ct zone set 2 counter return
	notrack counter
	}
	}
	EOF
	ip netns exec $ns1 ping -W 1 -c 1 -I veth0 $IP0 > /dev/null

	# should be in zone 1, not zone 2
	count=$(ip netns exec $ns0 conntrack -L -s $IP1 -d $IP0 -p icmp --zone 1 2>/dev/null \| wc -l)
	if [ $count -eq 1 ]; then
	echo "PASS: entry found in conntrack zone 1"
	else
	echo "FAIL: entry not found in conntrack zone 1"
	count=$(ip netns exec $ns0 conntrack -L -s $IP1 -d $IP0 -p icmp --zone 2 2> /dev/null \| wc -l)
	if [ $count -eq 1 ]; then
	echo "FAIL: entry found in zone 2 instead"
	else
	echo "FAIL: entry not in zone 1 or 2, dumping table"
	ip netns exec $ns0 conntrack -L
	ip netns exec $ns0 nft list ruleset
	fi
	fi
	}

	# add masq rule that gets evaluated w. outif set to vrf device.
	# This tests the first iteration of the packet through conntrack,
	# oifname is the vrf device.
	test_masquerade_vrf()
	{
	ip netns exec $ns0 conntrack -F 2>/dev/null

	ip netns exec $ns0 nft -f - <<EOF
	flush ruleset
	table ip nat {
	chain postrouting {
	type nat hook postrouting priority 0;
	# NB: masquerade should always be combined with 'oif(name) bla',
	# lack of this is intentional here, we want to exercise double-snat.
	ip saddr 172.30.30.0/30 counter masquerade random
	}
	}
	EOF
	ip netns exec $ns0 ip vrf exec tvrf iperf3 -t 1 -c $IP1 >/dev/null
	if [ $? -ne 0 ]; then
	echo "FAIL: iperf3 connect failure with masquerade + sport rewrite on vrf device"
	ret=1
	return
	fi

	# must also check that nat table was evaluated on second (lower device) iteration.
	ip netns exec $ns0 nft list table ip nat \|grep -q 'counter packets 2'
	if [ $? -eq 0 ]; then
	echo "PASS: iperf3 connect with masquerade + sport rewrite on vrf device"
	else
	echo "FAIL: vrf masq rule has unexpected counter value"
	ret=1
	fi
	}

	# add masq rule that gets evaluated w. outif set to veth device.
	# This tests the 2nd iteration of the packet through conntrack,
	# oifname is the lower device (veth0 in this case).
	test_masquerade_veth()
	{
	ip netns exec $ns0 conntrack -F 2>/dev/null
	ip netns exec $ns0 nft -f - <<EOF
	flush ruleset
	table ip nat {
	chain postrouting {
	type nat hook postrouting priority 0;
	meta oif veth0 ip saddr 172.30.30.0/30 counter masquerade random
	}
	}
	EOF
	ip netns exec $ns0 ip vrf exec tvrf iperf3 -t 1 -c $IP1 > /dev/null
	if [ $? -ne 0 ]; then
	echo "FAIL: iperf3 connect failure with masquerade + sport rewrite on veth device"
	ret=1
	return
	fi

	# must also check that nat table was evaluated on second (lower device) iteration.
	ip netns exec $ns0 nft list table ip nat \|grep -q 'counter packets 2'
	if [ $? -eq 0 ]; then
	echo "PASS: iperf3 connect with masquerade + sport rewrite on veth device"
	else
	echo "FAIL: vrf masq rule has unexpected counter value"
	ret=1
	fi
	}

	test_ct_zone_in
	test_masquerade_vrf
	test_masquerade_veth

	exit $ret