--- /dev/null
+#!/bin/bash
+# SPDX-License-Identifier: GPL-2.0
+
+# return code to signal skipped test
+ksft_skip=4
+
+# search for legacy iptables (it uses the xtables extensions
+if iptables-legacy --version >/dev/null 2>&1; then
+ iptables='iptables-legacy'
+elif iptables --version >/dev/null 2>&1; then
+ iptables='iptables'
+else
+ iptables=''
+fi
+
+if ip6tables-legacy --version >/dev/null 2>&1; then
+ ip6tables='ip6tables-legacy'
+elif ! ip6tables --version >/dev/null 2>&1; then
+ ip6tables='ip6tables'
+else
+ ip6tables=''
+fi
+
+if nft --version >/dev/null 2>&1; then
+ nft='nft'
+else
+ nft=''
+fi
+
+if [ -z "$iptables$ip6tables$nft" ]; then
+ echo "SKIP: Test needs iptables, ip6tables or nft"
+ exit $ksft_skip
+fi
+
+sfx=$(mktemp -u "XXXXXXXX")
+ns1="ns1-$sfx"
+ns2="ns2-$sfx"
+trap "ip netns del $ns1; ip netns del $ns2" EXIT
+
+# create two netns, disable rp_filter in ns2 and
+# keep IPv6 address when moving into VRF
+ip netns add "$ns1"
+ip netns add "$ns2"
+ip netns exec "$ns2" sysctl -q net.ipv4.conf.all.rp_filter=0
+ip netns exec "$ns2" sysctl -q net.ipv4.conf.default.rp_filter=0
+ip netns exec "$ns2" sysctl -q net.ipv6.conf.all.keep_addr_on_down=1
+
+# a standard connection between the netns, should not trigger rp filter
+ip -net "$ns1" link add v0 type veth peer name v0 netns "$ns2"
+ip -net "$ns1" link set v0 up; ip -net "$ns2" link set v0 up
+ip -net "$ns1" a a 192.168.23.2/24 dev v0
+ip -net "$ns2" a a 192.168.23.1/24 dev v0
+ip -net "$ns1" a a fec0:23::2/64 dev v0 nodad
+ip -net "$ns2" a a fec0:23::1/64 dev v0 nodad
+
+# rp filter testing: ns1 sends packets via v0 which ns2 would route back via d0
+ip -net "$ns2" link add d0 type dummy
+ip -net "$ns2" link set d0 up
+ip -net "$ns1" a a 192.168.42.2/24 dev v0
+ip -net "$ns2" a a 192.168.42.1/24 dev d0
+ip -net "$ns1" a a fec0:42::2/64 dev v0 nodad
+ip -net "$ns2" a a fec0:42::1/64 dev d0 nodad
+
+# firewall matches to test
+ip netns exec "$ns2" "$iptables" -t raw -A PREROUTING -s 192.168.0.0/16 -m rpfilter
+ip netns exec "$ns2" "$ip6tables" -t raw -A PREROUTING -s fec0::/16 -m rpfilter
+ip netns exec "$ns2" nft -f - <<EOF
+table inet t {
+ chain c {
+ type filter hook prerouting priority raw;
+ ip saddr 192.168.0.0/16 fib saddr . iif oif exists counter
+ ip6 saddr fec0::/16 fib saddr . iif oif exists counter
+ }
+}
+EOF
+
+die() {
+ echo "FAIL: $*"
+ #ip netns exec "$ns2" "$iptables" -t raw -vS
+ #ip netns exec "$ns2" "$ip6tables" -t raw -vS
+ #ip netns exec "$ns2" nft list ruleset
+ exit 1
+}
+
+# check rule counters, return true if rule did not match
+ipt_zero_rule() { # (command)
+ [ -n "$1" ] || return 0
+ ip netns exec "$ns2" "$1" -t raw -vS | grep -q -- "-m rpfilter -c 0 0"
+}
+nft_zero_rule() { # (family)
+ [ -n "$nft" ] || return 0
+ ip netns exec "$ns2" "$nft" list chain inet t c | \
+ grep -q "$1 saddr .* counter packets 0 bytes 0"
+}
+
+netns_ping() { # (netns, args...)
+ local netns="$1"
+ shift
+ ip netns exec "$netns" ping -q -c 1 -W 1 "$@" >/dev/null
+}
+
+testrun() {
+ # clear counters first
+ [ -n "$iptables" ] && ip netns exec "$ns2" "$iptables" -t raw -Z
+ [ -n "$ip6tables" ] && ip netns exec "$ns2" "$ip6tables" -t raw -Z
+ if [ -n "$nft" ]; then
+ (
+ echo "delete table inet t";
+ ip netns exec "$ns2" nft -s list table inet t;
+ ) | ip netns exec "$ns2" nft -f -
+ fi
+
+ # test 1: martian traffic should fail rpfilter matches
+ netns_ping "$ns1" -I v0 192.168.42.1 && \
+ die "martian ping 192.168.42.1 succeeded"
+ netns_ping "$ns1" -I v0 fec0:42::1 && \
+ die "martian ping fec0:42::1 succeeded"
+
+ ipt_zero_rule "$iptables" || die "iptables matched martian"
+ ipt_zero_rule "$ip6tables" || die "ip6tables matched martian"
+ nft_zero_rule ip || die "nft IPv4 matched martian"
+ nft_zero_rule ip6 || die "nft IPv6 matched martian"
+
+ # test 2: rpfilter match should pass for regular traffic
+ netns_ping "$ns1" 192.168.23.1 || \
+ die "regular ping 192.168.23.1 failed"
+ netns_ping "$ns1" fec0:23::1 || \
+ die "regular ping fec0:23::1 failed"
+
+ ipt_zero_rule "$iptables" && die "iptables match not effective"
+ ipt_zero_rule "$ip6tables" && die "ip6tables match not effective"
+ nft_zero_rule ip && die "nft IPv4 match not effective"
+ nft_zero_rule ip6 && die "nft IPv6 match not effective"
+
+}
+
+testrun
+
+# repeat test with vrf device in $ns2
+ip -net "$ns2" link add vrf0 type vrf table 10
+ip -net "$ns2" link set vrf0 up
+ip -net "$ns2" link set v0 master vrf0
+
+testrun
+
+echo "PASS: netfilter reverse path match works as intended"
+exit 0