diff --git a/tools/testing/selftests/net/netfilter/Makefile b/tools/testing/selftests/net/netfilter/Makefile index 98535c60b195..e6c9e777fead 100644 --- a/tools/testing/selftests/net/netfilter/Makefile +++ b/tools/testing/selftests/net/netfilter/Makefile @@ -27,6 +27,8 @@ TEST_PROGS += nft_nat.sh TEST_PROGS += nft_nat_zones.sh TEST_PROGS += nft_queue.sh TEST_PROGS += nft_synproxy.sh +TEST_PROGS += nft_tproxy_tcp.sh +TEST_PROGS += nft_tproxy_udp.sh TEST_PROGS += nft_zones_many.sh TEST_PROGS += rpath.sh TEST_PROGS += xt_string.sh diff --git a/tools/testing/selftests/net/netfilter/config b/tools/testing/selftests/net/netfilter/config index b2dd4db45215..c5fe7b34eaf1 100644 --- a/tools/testing/selftests/net/netfilter/config +++ b/tools/testing/selftests/net/netfilter/config @@ -81,6 +81,7 @@ CONFIG_NFT_QUEUE=m CONFIG_NFT_QUOTA=m CONFIG_NFT_REDIR=m CONFIG_NFT_SYNPROXY=m +CONFIG_NFT_TPROXY=m CONFIG_VETH=m CONFIG_VLAN_8021Q=m CONFIG_XFRM_USER=m diff --git a/tools/testing/selftests/net/netfilter/nft_tproxy_tcp.sh b/tools/testing/selftests/net/netfilter/nft_tproxy_tcp.sh new file mode 100755 index 000000000000..e208fb03eeb7 --- /dev/null +++ b/tools/testing/selftests/net/netfilter/nft_tproxy_tcp.sh @@ -0,0 +1,358 @@ +#!/bin/bash +# +# This tests tproxy on the following scenario: +# +# +------------+ +# +-------+ | nsrouter | +-------+ +# |ns1 |.99 .1| |.1 .99| ns2| +# | eth0|---------------|veth0 veth1|------------------|eth0 | +# | | 10.0.1.0/24 | | 10.0.2.0/24 | | +# +-------+ dead:1::/64 | veth2 | dead:2::/64 +-------+ +# +------------+ +# |.1 +# | +# | +# | +-------+ +# | .99| ns3| +# +------------------------|eth0 | +# 10.0.3.0/24 | | +# dead:3::/64 +-------+ +# +# The tproxy implementation acts as an echo server so the client +# must receive the same message it sent if it has been proxied. +# If is not proxied the servers return PONG_NS# with the number +# of the namespace the server is running. +# +# shellcheck disable=SC2162,SC2317 + +source lib.sh +ret=0 +timeout=5 + +cleanup() +{ + ip netns pids "$ns1" | xargs kill 2>/dev/null + ip netns pids "$ns2" | xargs kill 2>/dev/null + ip netns pids "$ns3" | xargs kill 2>/dev/null + ip netns pids "$nsrouter" | xargs kill 2>/dev/null + + cleanup_all_ns +} + +checktool "nft --version" "test without nft tool" +checktool "socat -h" "run test without socat" + +trap cleanup EXIT +setup_ns ns1 ns2 ns3 nsrouter + +if ! ip link add veth0 netns "$nsrouter" type veth peer name eth0 netns "$ns1" > /dev/null 2>&1; then + echo "SKIP: No virtual ethernet pair device support in kernel" + exit $ksft_skip +fi +ip link add veth1 netns "$nsrouter" type veth peer name eth0 netns "$ns2" +ip link add veth2 netns "$nsrouter" type veth peer name eth0 netns "$ns3" + +ip -net "$nsrouter" link set veth0 up +ip -net "$nsrouter" addr add 10.0.1.1/24 dev veth0 +ip -net "$nsrouter" addr add dead:1::1/64 dev veth0 nodad + +ip -net "$nsrouter" link set veth1 up +ip -net "$nsrouter" addr add 10.0.2.1/24 dev veth1 +ip -net "$nsrouter" addr add dead:2::1/64 dev veth1 nodad + +ip -net "$nsrouter" link set veth2 up +ip -net "$nsrouter" addr add 10.0.3.1/24 dev veth2 +ip -net "$nsrouter" addr add dead:3::1/64 dev veth2 nodad + +ip -net "$ns1" link set eth0 up +ip -net "$ns2" link set eth0 up +ip -net "$ns3" link set eth0 up + +ip -net "$ns1" addr add 10.0.1.99/24 dev eth0 +ip -net "$ns1" addr add dead:1::99/64 dev eth0 nodad +ip -net "$ns1" route add default via 10.0.1.1 +ip -net "$ns1" route add default via dead:1::1 + +ip -net "$ns2" addr add 10.0.2.99/24 dev eth0 +ip -net "$ns2" addr add dead:2::99/64 dev eth0 nodad +ip -net "$ns2" route add default via 10.0.2.1 +ip -net "$ns2" route add default via dead:2::1 + +ip -net "$ns3" addr add 10.0.3.99/24 dev eth0 +ip -net "$ns3" addr add dead:3::99/64 dev eth0 nodad +ip -net "$ns3" route add default via 10.0.3.1 +ip -net "$ns3" route add default via dead:3::1 + +ip netns exec "$nsrouter" sysctl net.ipv6.conf.all.forwarding=1 > /dev/null +ip netns exec "$nsrouter" sysctl net.ipv4.conf.veth0.forwarding=1 > /dev/null +ip netns exec "$nsrouter" sysctl net.ipv4.conf.veth1.forwarding=1 > /dev/null +ip netns exec "$nsrouter" sysctl net.ipv4.conf.veth2.forwarding=1 > /dev/null + +test_ping() { + if ! ip netns exec "$ns1" ping -c 1 -q 10.0.2.99 > /dev/null; then + return 1 + fi + + if ! ip netns exec "$ns1" ping -c 1 -q dead:2::99 > /dev/null; then + return 2 + fi + + if ! ip netns exec "$ns1" ping -c 1 -q 10.0.3.99 > /dev/null; then + return 1 + fi + + if ! ip netns exec "$ns1" ping -c 1 -q dead:3::99 > /dev/null; then + return 2 + fi + + return 0 +} + +test_ping_router() { + if ! ip netns exec "$ns1" ping -c 1 -q 10.0.2.1 > /dev/null; then + return 3 + fi + + if ! ip netns exec "$ns1" ping -c 1 -q dead:2::1 > /dev/null; then + return 4 + fi + + return 0 +} + + +listener_ready() +{ + local ns="$1" + local port="$2" + local proto="$3" + ss -N "$ns" -ln "$proto" -o "sport = :$port" | grep -q "$port" +} + +test_tproxy() +{ + local traffic_origin="$1" + local ip_proto="$2" + local expect_ns1_ns2="$3" + local expect_ns1_ns3="$4" + local expect_nsrouter_ns2="$5" + local expect_nsrouter_ns3="$6" + + # derived variables + local testname="test_${ip_proto}_tcp_${traffic_origin}" + local socat_ipproto + local ns1_ip + local ns2_ip + local ns3_ip + local ns2_target + local ns3_target + local nftables_subject + local ip_command + + # socat 1.8.0 has a bug that requires to specify the IP family to bind (fixed in 1.8.0.1) + case $ip_proto in + "ip") + socat_ipproto="-4" + ns1_ip=10.0.1.99 + ns2_ip=10.0.2.99 + ns3_ip=10.0.3.99 + ns2_target="tcp:$ns2_ip:8080" + ns3_target="tcp:$ns3_ip:8080" + nftables_subject="ip daddr $ns2_ip tcp dport 8080" + ip_command="ip" + ;; + "ip6") + socat_ipproto="-6" + ns1_ip=dead:1::99 + ns2_ip=dead:2::99 + ns3_ip=dead:3::99 + ns2_target="tcp:[$ns2_ip]:8080" + ns3_target="tcp:[$ns3_ip]:8080" + nftables_subject="ip6 daddr $ns2_ip tcp dport 8080" + ip_command="ip -6" + ;; + *) + echo "FAIL: unsupported protocol" + exit 255 + ;; + esac + + case $traffic_origin in + # to capture the local originated traffic we need to mark the outgoing + # traffic so the policy based routing rule redirects it and can be processed + # in the prerouting chain. + "local") + nftables_rules=" +flush ruleset +table inet filter { + chain divert { + type filter hook prerouting priority 0; policy accept; + $nftables_subject tproxy $ip_proto to :12345 meta mark set 1 accept + } + chain output { + type route hook output priority 0; policy accept; + $nftables_subject meta mark set 1 accept + } +}" + ;; + "forward") + nftables_rules=" +flush ruleset +table inet filter { + chain divert { + type filter hook prerouting priority 0; policy accept; + $nftables_subject tproxy $ip_proto to :12345 meta mark set 1 accept + } +}" + ;; + *) + echo "FAIL: unsupported parameter for traffic origin" + exit 255 + ;; + esac + + # shellcheck disable=SC2046 # Intended splitting of ip_command + ip netns exec "$nsrouter" $ip_command rule add fwmark 1 table 100 + ip netns exec "$nsrouter" $ip_command route add local "${ns2_ip}" dev lo table 100 + echo "$nftables_rules" | ip netns exec "$nsrouter" nft -f /dev/stdin + + timeout "$timeout" ip netns exec "$nsrouter" socat "$socat_ipproto" tcp-listen:12345,fork,ip-transparent SYSTEM:"cat" 2>/dev/null & + local tproxy_pid=$! + + timeout "$timeout" ip netns exec "$ns2" socat "$socat_ipproto" tcp-listen:8080,fork SYSTEM:"echo PONG_NS2" 2>/dev/null & + local server2_pid=$! + + timeout "$timeout" ip netns exec "$ns3" socat "$socat_ipproto" tcp-listen:8080,fork SYSTEM:"echo PONG_NS3" 2>/dev/null & + local server3_pid=$! + + busywait "$BUSYWAIT_TIMEOUT" listener_ready "$nsrouter" 12345 "-t" + busywait "$BUSYWAIT_TIMEOUT" listener_ready "$ns2" 8080 "-t" + busywait "$BUSYWAIT_TIMEOUT" listener_ready "$ns3" 8080 "-t" + + local result + # request from ns1 to ns2 (forwarded traffic) + result=$(echo I_M_PROXIED | ip netns exec "$ns1" socat -t 2 -T 2 STDIO "$ns2_target") + if [ "$result" == "$expect_ns1_ns2" ] ;then + echo "PASS: tproxy test $testname: ns1 got reply \"$result\" connecting to ns2" + else + echo "ERROR: tproxy test $testname: ns1 got reply \"$result\" connecting to ns2, not \"${expect_ns1_ns2}\" as intended" + ret=1 + fi + + # request from ns1 to ns3(forwarded traffic) + result=$(echo I_M_PROXIED | ip netns exec "$ns1" socat -t 2 -T 2 STDIO "$ns3_target") + if [ "$result" = "$expect_ns1_ns3" ] ;then + echo "PASS: tproxy test $testname: ns1 got reply \"$result\" connecting to ns3" + else + echo "ERROR: tproxy test $testname: ns1 got reply \"$result\" connecting to ns3, not \"$expect_ns1_ns3\" as intended" + ret=1 + fi + + # request from nsrouter to ns2 (localy originated traffic) + result=$(echo I_M_PROXIED | ip netns exec "$nsrouter" socat -t 2 -T 2 STDIO "$ns2_target") + if [ "$result" == "$expect_nsrouter_ns2" ] ;then + echo "PASS: tproxy test $testname: nsrouter got reply \"$result\" connecting to ns2" + else + echo "ERROR: tproxy test $testname: nsrouter got reply \"$result\" connecting to ns2, not \"$expect_nsrouter_ns2\" as intended" + ret=1 + fi + + # request from nsrouter to ns3 (localy originated traffic) + result=$(echo I_M_PROXIED | ip netns exec "$nsrouter" socat -t 2 -T 2 STDIO "$ns3_target") + if [ "$result" = "$expect_nsrouter_ns3" ] ;then + echo "PASS: tproxy test $testname: nsrouter got reply \"$result\" connecting to ns3" + else + echo "ERROR: tproxy test $testname: nsrouter got reply \"$result\" connecting to ns3, not \"$expect_nsrouter_ns3\" as intended" + ret=1 + fi + + # cleanup + kill "$tproxy_pid" "$server2_pid" "$server3_pid" 2>/dev/null + # shellcheck disable=SC2046 # Intended splitting of ip_command + ip netns exec "$nsrouter" $ip_command rule del fwmark 1 table 100 + ip netns exec "$nsrouter" $ip_command route flush table 100 +} + + +test_ipv4_tcp_forward() +{ + local traffic_origin="forward" + local ip_proto="ip" + local expect_ns1_ns2="I_M_PROXIED" + local expect_ns1_ns3="PONG_NS3" + local expect_nsrouter_ns2="PONG_NS2" + local expect_nsrouter_ns3="PONG_NS3" + + test_tproxy "$traffic_origin" \ + "$ip_proto" \ + "$expect_ns1_ns2" \ + "$expect_ns1_ns3" \ + "$expect_nsrouter_ns2" \ + "$expect_nsrouter_ns3" +} + +test_ipv4_tcp_local() +{ + local traffic_origin="local" + local ip_proto="ip" + local expect_ns1_ns2="I_M_PROXIED" + local expect_ns1_ns3="PONG_NS3" + local expect_nsrouter_ns2="I_M_PROXIED" + local expect_nsrouter_ns3="PONG_NS3" + + test_tproxy "$traffic_origin" \ + "$ip_proto" \ + "$expect_ns1_ns2" \ + "$expect_ns1_ns3" \ + "$expect_nsrouter_ns2" \ + "$expect_nsrouter_ns3" +} + +test_ipv6_tcp_forward() +{ + local traffic_origin="forward" + local ip_proto="ip6" + local expect_ns1_ns2="I_M_PROXIED" + local expect_ns1_ns3="PONG_NS3" + local expect_nsrouter_ns2="PONG_NS2" + local expect_nsrouter_ns3="PONG_NS3" + + test_tproxy "$traffic_origin" \ + "$ip_proto" \ + "$expect_ns1_ns2" \ + "$expect_ns1_ns3" \ + "$expect_nsrouter_ns2" \ + "$expect_nsrouter_ns3" +} + +test_ipv6_tcp_local() +{ + local traffic_origin="local" + local ip_proto="ip6" + local expect_ns1_ns2="I_M_PROXIED" + local expect_ns1_ns3="PONG_NS3" + local expect_nsrouter_ns2="I_M_PROXIED" + local expect_nsrouter_ns3="PONG_NS3" + + test_tproxy "$traffic_origin" \ + "$ip_proto" \ + "$expect_ns1_ns2" \ + "$expect_ns1_ns3" \ + "$expect_nsrouter_ns2" \ + "$expect_nsrouter_ns3" +} + +if test_ping; then + # queue bypass works (rules were skipped, no listener) + echo "PASS: ${ns1} can reach ${ns2}" +else + echo "FAIL: ${ns1} cannot reach ${ns2}: $ret" 1>&2 + exit $ret +fi + +test_ipv4_tcp_forward +test_ipv4_tcp_local +test_ipv6_tcp_forward +test_ipv6_tcp_local + +exit $ret diff --git a/tools/testing/selftests/net/netfilter/nft_tproxy_udp.sh b/tools/testing/selftests/net/netfilter/nft_tproxy_udp.sh new file mode 100755 index 000000000000..d16de13fe5a7 --- /dev/null +++ b/tools/testing/selftests/net/netfilter/nft_tproxy_udp.sh @@ -0,0 +1,262 @@ +#!/bin/bash +# +# This tests tproxy on the following scenario: +# +# +------------+ +# +-------+ | nsrouter | +-------+ +# |ns1 |.99 .1| |.1 .99| ns2| +# | eth0|---------------|veth0 veth1|------------------|eth0 | +# | | 10.0.1.0/24 | | 10.0.2.0/24 | | +# +-------+ dead:1::/64 | veth2 | dead:2::/64 +-------+ +# +------------+ +# |.1 +# | +# | +# | +-------+ +# | .99| ns3| +# +------------------------|eth0 | +# 10.0.3.0/24 | | +# dead:3::/64 +-------+ +# +# The tproxy implementation acts as an echo server so the client +# must receive the same message it sent if it has been proxied. +# If is not proxied the servers return PONG_NS# with the number +# of the namespace the server is running. +# shellcheck disable=SC2162,SC2317 + +source lib.sh +ret=0 +# UDP is slow +timeout=15 + +cleanup() +{ + ip netns pids "$ns1" | xargs kill 2>/dev/null + ip netns pids "$ns2" | xargs kill 2>/dev/null + ip netns pids "$ns3" | xargs kill 2>/dev/null + ip netns pids "$nsrouter" | xargs kill 2>/dev/null + + cleanup_all_ns +} + +checktool "nft --version" "test without nft tool" +checktool "socat -h" "run test without socat" + +trap cleanup EXIT +setup_ns ns1 ns2 ns3 nsrouter + +if ! ip link add veth0 netns "$nsrouter" type veth peer name eth0 netns "$ns1" > /dev/null 2>&1; then + echo "SKIP: No virtual ethernet pair device support in kernel" + exit $ksft_skip +fi +ip link add veth1 netns "$nsrouter" type veth peer name eth0 netns "$ns2" +ip link add veth2 netns "$nsrouter" type veth peer name eth0 netns "$ns3" + +ip -net "$nsrouter" link set veth0 up +ip -net "$nsrouter" addr add 10.0.1.1/24 dev veth0 +ip -net "$nsrouter" addr add dead:1::1/64 dev veth0 nodad + +ip -net "$nsrouter" link set veth1 up +ip -net "$nsrouter" addr add 10.0.2.1/24 dev veth1 +ip -net "$nsrouter" addr add dead:2::1/64 dev veth1 nodad + +ip -net "$nsrouter" link set veth2 up +ip -net "$nsrouter" addr add 10.0.3.1/24 dev veth2 +ip -net "$nsrouter" addr add dead:3::1/64 dev veth2 nodad + +ip -net "$ns1" link set eth0 up +ip -net "$ns2" link set eth0 up +ip -net "$ns3" link set eth0 up + +ip -net "$ns1" addr add 10.0.1.99/24 dev eth0 +ip -net "$ns1" addr add dead:1::99/64 dev eth0 nodad +ip -net "$ns1" route add default via 10.0.1.1 +ip -net "$ns1" route add default via dead:1::1 + +ip -net "$ns2" addr add 10.0.2.99/24 dev eth0 +ip -net "$ns2" addr add dead:2::99/64 dev eth0 nodad +ip -net "$ns2" route add default via 10.0.2.1 +ip -net "$ns2" route add default via dead:2::1 + +ip -net "$ns3" addr add 10.0.3.99/24 dev eth0 +ip -net "$ns3" addr add dead:3::99/64 dev eth0 nodad +ip -net "$ns3" route add default via 10.0.3.1 +ip -net "$ns3" route add default via dead:3::1 + +ip netns exec "$nsrouter" sysctl net.ipv6.conf.all.forwarding=1 > /dev/null +ip netns exec "$nsrouter" sysctl net.ipv4.conf.veth0.forwarding=1 > /dev/null +ip netns exec "$nsrouter" sysctl net.ipv4.conf.veth1.forwarding=1 > /dev/null +ip netns exec "$nsrouter" sysctl net.ipv4.conf.veth2.forwarding=1 > /dev/null + +test_ping() { + if ! ip netns exec "$ns1" ping -c 1 -q 10.0.2.99 > /dev/null; then + return 1 + fi + + if ! ip netns exec "$ns1" ping -c 1 -q dead:2::99 > /dev/null; then + return 2 + fi + + if ! ip netns exec "$ns1" ping -c 1 -q 10.0.3.99 > /dev/null; then + return 1 + fi + + if ! ip netns exec "$ns1" ping -c 1 -q dead:3::99 > /dev/null; then + return 2 + fi + + return 0 +} + +test_ping_router() { + if ! ip netns exec "$ns1" ping -c 1 -q 10.0.2.1 > /dev/null; then + return 3 + fi + + if ! ip netns exec "$ns1" ping -c 1 -q dead:2::1 > /dev/null; then + return 4 + fi + + return 0 +} + + +listener_ready() +{ + local ns="$1" + local port="$2" + local proto="$3" + ss -N "$ns" -ln "$proto" -o "sport = :$port" | grep -q "$port" +} + +test_tproxy_udp_forward() +{ + local ip_proto="$1" + + local expect_ns1_ns2="I_M_PROXIED" + local expect_ns1_ns3="PONG_NS3" + local expect_nsrouter_ns2="PONG_NS2" + local expect_nsrouter_ns3="PONG_NS3" + + # derived variables + local testname="test_${ip_proto}_udp_forward" + local socat_ipproto + local ns1_ip + local ns2_ip + local ns3_ip + local ns1_ip_port + local ns2_ip_port + local ns3_ip_port + local ip_command + + # socat 1.8.0 has a bug that requires to specify the IP family to bind (fixed in 1.8.0.1) + case $ip_proto in + "ip") + socat_ipproto="-4" + ns1_ip=10.0.1.99 + ns2_ip=10.0.2.99 + ns3_ip=10.0.3.99 + ns1_ip_port="$ns1_ip:18888" + ns2_ip_port="$ns2_ip:8080" + ns3_ip_port="$ns3_ip:8080" + ip_command="ip" + ;; + "ip6") + socat_ipproto="-6" + ns1_ip=dead:1::99 + ns2_ip=dead:2::99 + ns3_ip=dead:3::99 + ns1_ip_port="[$ns1_ip]:18888" + ns2_ip_port="[$ns2_ip]:8080" + ns3_ip_port="[$ns3_ip]:8080" + ip_command="ip -6" + ;; + *) + echo "FAIL: unsupported protocol" + exit 255 + ;; + esac + + # shellcheck disable=SC2046 # Intended splitting of ip_command + ip netns exec "$nsrouter" $ip_command rule add fwmark 1 table 100 + ip netns exec "$nsrouter" $ip_command route add local "$ns2_ip" dev lo table 100 + ip netns exec "$nsrouter" nft -f /dev/stdin </dev/null & + local tproxy_pid=$! + + timeout "$timeout" ip netns exec "$ns2" socat "$socat_ipproto" udp-listen:8080,fork SYSTEM:"echo PONG_NS2" 2>/dev/null & + local server2_pid=$! + + timeout "$timeout" ip netns exec "$ns3" socat "$socat_ipproto" udp-listen:8080,fork SYSTEM:"echo PONG_NS3" 2>/dev/null & + local server3_pid=$! + + busywait "$BUSYWAIT_TIMEOUT" listener_ready "$nsrouter" 12345 "-u" + busywait "$BUSYWAIT_TIMEOUT" listener_ready "$ns2" 8080 "-u" + busywait "$BUSYWAIT_TIMEOUT" listener_ready "$ns3" 8080 "-u" + + local result + # request from ns1 to ns2 (forwarded traffic) + result=$(echo I_M_PROXIED | ip netns exec "$ns1" socat -t 2 -T 2 STDIO udp:"$ns2_ip_port",sourceport=18888) + if [ "$result" == "$expect_ns1_ns2" ] ;then + echo "PASS: tproxy test $testname: ns1 got reply \"$result\" connecting to ns2" + else + echo "ERROR: tproxy test $testname: ns1 got reply \"$result\" connecting to ns2, not \"${expect_ns1_ns2}\" as intended" + ret=1 + fi + + # request from ns1 to ns3 (forwarded traffic) + result=$(echo I_M_PROXIED | ip netns exec "$ns1" socat -t 2 -T 2 STDIO udp:"$ns3_ip_port") + if [ "$result" = "$expect_ns1_ns3" ] ;then + echo "PASS: tproxy test $testname: ns1 got reply \"$result\" connecting to ns3" + else + echo "ERROR: tproxy test $testname: ns1 got reply \"$result\" connecting to ns3, not \"$expect_ns1_ns3\" as intended" + ret=1 + fi + + # request from nsrouter to ns2 (localy originated traffic) + result=$(echo I_M_PROXIED | ip netns exec "$nsrouter" socat -t 2 -T 2 STDIO udp:"$ns2_ip_port") + if [ "$result" == "$expect_nsrouter_ns2" ] ;then + echo "PASS: tproxy test $testname: nsrouter got reply \"$result\" connecting to ns2" + else + echo "ERROR: tproxy test $testname: nsrouter got reply \"$result\" connecting to ns2, not \"$expect_nsrouter_ns2\" as intended" + ret=1 + fi + + # request from nsrouter to ns3 (localy originated traffic) + result=$(echo I_M_PROXIED | ip netns exec "$nsrouter" socat -t 2 -T 2 STDIO udp:"$ns3_ip_port") + if [ "$result" = "$expect_nsrouter_ns3" ] ;then + echo "PASS: tproxy test $testname: nsrouter got reply \"$result\" connecting to ns3" + else + echo "ERROR: tproxy test $testname: nsrouter got reply \"$result\" connecting to ns3, not \"$expect_nsrouter_ns3\" as intended" + ret=1 + fi + + # cleanup + kill "$tproxy_pid" "$server2_pid" "$server3_pid" 2>/dev/null + # shellcheck disable=SC2046 # Intended splitting of ip_command + ip netns exec "$nsrouter" $ip_command rule del fwmark 1 table 100 + ip netns exec "$nsrouter" $ip_command route flush table 100 +} + + +if test_ping; then + # queue bypass works (rules were skipped, no listener) + echo "PASS: ${ns1} can reach ${ns2}" +else + echo "FAIL: ${ns1} cannot reach ${ns2}: $ret" 1>&2 + exit $ret +fi + +test_tproxy_udp_forward "ip" +test_tproxy_udp_forward "ip6" + +exit $ret