"ns1" is a too generic name, use a random suffix to avoid errors when such a netns exists. Also allows to run multiple instances of the script in parallel.
Signed-off-by: Florian Westphal fw@strlen.de --- .../selftests/netfilter/nft_flowtable.sh | 246 +++++++++--------- 1 file changed, 128 insertions(+), 118 deletions(-)
diff --git a/tools/testing/selftests/netfilter/nft_flowtable.sh b/tools/testing/selftests/netfilter/nft_flowtable.sh index d4ffebb989f8..c336e6c148d1 100755 --- a/tools/testing/selftests/netfilter/nft_flowtable.sh +++ b/tools/testing/selftests/netfilter/nft_flowtable.sh @@ -14,6 +14,11 @@ # nft_flowtable.sh -o8000 -l1500 -r2000 #
+sfx=$(mktemp -u "XXXXXXXX") +ns1="ns1-$sfx" +ns2="ns2-$sfx" +nsr1="nsr1-$sfx" +nsr2="nsr2-$sfx"
# Kselftest framework requirement - SKIP code is 4. ksft_skip=4 @@ -36,18 +41,17 @@ checktool (){ checktool "nft --version" "run test without nft tool" checktool "ip -Version" "run test without ip tool" checktool "which nc" "run test without nc (netcat)" -checktool "ip netns add nsr1" "create net namespace" +checktool "ip netns add $nsr1" "create net namespace $nsr1"
-ip netns add ns1 -ip netns add ns2 - -ip netns add nsr2 +ip netns add $ns1 +ip netns add $ns2 +ip netns add $nsr2
cleanup() { - for i in 1 2; do - ip netns del ns$i - ip netns del nsr$i - done + ip netns del $ns1 + ip netns del $ns2 + ip netns del $nsr1 + ip netns del $nsr2
rm -f "$ns1in" "$ns1out" rm -f "$ns2in" "$ns2out" @@ -59,22 +63,21 @@ trap cleanup EXIT
sysctl -q net.netfilter.nf_log_all_netns=1
-ip link add veth0 netns nsr1 type veth peer name eth0 netns ns1 -ip link add veth1 netns nsr1 type veth peer name veth0 netns nsr2 +ip link add veth0 netns $nsr1 type veth peer name eth0 netns $ns1 +ip link add veth1 netns $nsr1 type veth peer name veth0 netns $nsr2
-ip link add veth1 netns nsr2 type veth peer name eth0 netns ns2 +ip link add veth1 netns $nsr2 type veth peer name eth0 netns $ns2
for dev in lo veth0 veth1; do - for i in 1 2; do - ip -net nsr$i link set $dev up - done + ip -net $nsr1 link set $dev up + ip -net $nsr2 link set $dev up done
-ip -net nsr1 addr add 10.0.1.1/24 dev veth0 -ip -net nsr1 addr add dead:1::1/64 dev veth0 +ip -net $nsr1 addr add 10.0.1.1/24 dev veth0 +ip -net $nsr1 addr add dead:1::1/64 dev veth0
-ip -net nsr2 addr add 10.0.2.1/24 dev veth1 -ip -net nsr2 addr add dead:2::1/64 dev veth1 +ip -net $nsr2 addr add 10.0.2.1/24 dev veth1 +ip -net $nsr2 addr add dead:2::1/64 dev veth1
# set different MTUs so we need to push packets coming from ns1 (large MTU) # to ns2 (smaller MTU) to stack either to perform fragmentation (ip_no_pmtu_disc=1), @@ -106,49 +109,56 @@ do esac done
-if ! ip -net nsr1 link set veth0 mtu $omtu; then +if ! ip -net $nsr1 link set veth0 mtu $omtu; then exit 1 fi
-ip -net ns1 link set eth0 mtu $omtu +ip -net $ns1 link set eth0 mtu $omtu
-if ! ip -net nsr2 link set veth1 mtu $rmtu; then +if ! ip -net $nsr2 link set veth1 mtu $rmtu; then exit 1 fi
-ip -net ns2 link set eth0 mtu $rmtu +ip -net $ns2 link set eth0 mtu $rmtu
# transfer-net between nsr1 and nsr2. # these addresses are not used for connections. -ip -net nsr1 addr add 192.168.10.1/24 dev veth1 -ip -net nsr1 addr add fee1:2::1/64 dev veth1 - -ip -net nsr2 addr add 192.168.10.2/24 dev veth0 -ip -net nsr2 addr add fee1:2::2/64 dev veth0 - -for i in 1 2; do - ip netns exec nsr$i sysctl net.ipv4.conf.veth0.forwarding=1 > /dev/null - ip netns exec nsr$i sysctl net.ipv4.conf.veth1.forwarding=1 > /dev/null - - ip -net ns$i link set lo up - ip -net ns$i link set eth0 up - ip -net ns$i addr add 10.0.$i.99/24 dev eth0 - ip -net ns$i route add default via 10.0.$i.1 - ip -net ns$i addr add dead:$i::99/64 dev eth0 - ip -net ns$i route add default via dead:$i::1 - if ! ip netns exec ns$i sysctl net.ipv4.tcp_no_metrics_save=1 > /dev/null; then +ip -net $nsr1 addr add 192.168.10.1/24 dev veth1 +ip -net $nsr1 addr add fee1:2::1/64 dev veth1 + +ip -net $nsr2 addr add 192.168.10.2/24 dev veth0 +ip -net $nsr2 addr add fee1:2::2/64 dev veth0 + +for i in 0 1; do + ip netns exec $nsr1 sysctl net.ipv4.conf.veth$i.forwarding=1 > /dev/null + ip netns exec $nsr2 sysctl net.ipv4.conf.veth$i.forwarding=1 > /dev/null +done + +for ns in $ns1 $ns2;do + ip -net $ns link set lo up + ip -net $ns link set eth0 up + + if ! ip netns exec $ns sysctl net.ipv4.tcp_no_metrics_save=1 > /dev/null; then echo "ERROR: Check Originator/Responder values (problem during address addition)" exit 1 fi - # don't set ip DF bit for first two tests - ip netns exec ns$i sysctl net.ipv4.ip_no_pmtu_disc=1 > /dev/null + ip netns exec $ns sysctl net.ipv4.ip_no_pmtu_disc=1 > /dev/null done
-ip -net nsr1 route add default via 192.168.10.2 -ip -net nsr2 route add default via 192.168.10.1 +ip -net $ns1 addr add 10.0.1.99/24 dev eth0 +ip -net $ns2 addr add 10.0.2.99/24 dev eth0 +ip -net $ns1 route add default via 10.0.1.1 +ip -net $ns2 route add default via 10.0.2.1 +ip -net $ns1 addr add dead:1::99/64 dev eth0 +ip -net $ns2 addr add dead:2::99/64 dev eth0 +ip -net $ns1 route add default via dead:1::1 +ip -net $ns2 route add default via dead:2::1 + +ip -net $nsr1 route add default via 192.168.10.2 +ip -net $nsr2 route add default via 192.168.10.1
-ip netns exec nsr1 nft -f - <<EOF +ip netns exec $nsr1 nft -f - <<EOF table inet filter { flowtable f1 { hook ingress priority 0 @@ -197,18 +207,18 @@ if [ $? -ne 0 ]; then fi
# test basic connectivity -if ! ip netns exec ns1 ping -c 1 -q 10.0.2.99 > /dev/null; then - echo "ERROR: ns1 cannot reach ns2" 1>&2 +if ! ip netns exec $ns1 ping -c 1 -q 10.0.2.99 > /dev/null; then + echo "ERROR: $ns1 cannot reach ns2" 1>&2 exit 1 fi
-if ! ip netns exec ns2 ping -c 1 -q 10.0.1.99 > /dev/null; then - echo "ERROR: ns2 cannot reach ns1" 1>&2 +if ! ip netns exec $ns2 ping -c 1 -q 10.0.1.99 > /dev/null; then + echo "ERROR: $ns2 cannot reach $ns1" 1>&2 exit 1 fi
if [ $ret -eq 0 ];then - echo "PASS: netns routing/connectivity: ns1 can reach ns2" + echo "PASS: netns routing/connectivity: $ns1 can reach $ns2" fi
ns1in=$(mktemp) @@ -312,24 +322,24 @@ make_file "$ns2in"
# First test: # No PMTU discovery, nsr1 is expected to fragment packets from ns1 to ns2 as needed. -if test_tcp_forwarding ns1 ns2; then +if test_tcp_forwarding $ns1 $ns2; then echo "PASS: flow offloaded for ns1/ns2" else echo "FAIL: flow offload for ns1/ns2:" 1>&2 - ip netns exec nsr1 nft list ruleset + ip netns exec $nsr1 nft list ruleset ret=1 fi
# delete default route, i.e. ns2 won't be able to reach ns1 and # will depend on ns1 being masqueraded in nsr1. # expect ns1 has nsr1 address. -ip -net ns2 route del default via 10.0.2.1 -ip -net ns2 route del default via dead:2::1 -ip -net ns2 route add 192.168.10.1 via 10.0.2.1 +ip -net $ns2 route del default via 10.0.2.1 +ip -net $ns2 route del default via dead:2::1 +ip -net $ns2 route add 192.168.10.1 via 10.0.2.1
# Second test: # Same, but with NAT enabled. -ip netns exec nsr1 nft -f - <<EOF +ip netns exec $nsr1 nft -f - <<EOF table ip nat { chain prerouting { type nat hook prerouting priority 0; policy accept; @@ -343,47 +353,47 @@ table ip nat { } EOF
-if test_tcp_forwarding_nat ns1 ns2; then +if test_tcp_forwarding_nat $ns1 $ns2; then echo "PASS: flow offloaded for ns1/ns2 with NAT" else echo "FAIL: flow offload for ns1/ns2 with NAT" 1>&2 - ip netns exec nsr1 nft list ruleset + ip netns exec $nsr1 nft list ruleset ret=1 fi
# Third test: # Same as second test, but with PMTU discovery enabled. -handle=$(ip netns exec nsr1 nft -a list table inet filter | grep something-to-grep-for | cut -d # -f 2) +handle=$(ip netns exec $nsr1 nft -a list table inet filter | grep something-to-grep-for | cut -d # -f 2)
-if ! ip netns exec nsr1 nft delete rule inet filter forward $handle; then +if ! ip netns exec $nsr1 nft delete rule inet filter forward $handle; then echo "FAIL: Could not delete large-packet accept rule" exit 1 fi
-ip netns exec ns1 sysctl net.ipv4.ip_no_pmtu_disc=0 > /dev/null -ip netns exec ns2 sysctl net.ipv4.ip_no_pmtu_disc=0 > /dev/null +ip netns exec $ns1 sysctl net.ipv4.ip_no_pmtu_disc=0 > /dev/null +ip netns exec $ns2 sysctl net.ipv4.ip_no_pmtu_disc=0 > /dev/null
-if test_tcp_forwarding_nat ns1 ns2; then +if test_tcp_forwarding_nat $ns1 $ns2; then echo "PASS: flow offloaded for ns1/ns2 with NAT and pmtu discovery" else echo "FAIL: flow offload for ns1/ns2 with NAT and pmtu discovery" 1>&2 - ip netns exec nsr1 nft list ruleset + ip netns exec $nsr1 nft list ruleset fi
# Another test: # Add bridge interface br0 to Router1, with NAT enabled. -ip -net nsr1 link add name br0 type bridge -ip -net nsr1 addr flush dev veth0 -ip -net nsr1 link set up dev veth0 -ip -net nsr1 link set veth0 master br0 -ip -net nsr1 addr add 10.0.1.1/24 dev br0 -ip -net nsr1 addr add dead:1::1/64 dev br0 -ip -net nsr1 link set up dev br0 +ip -net $nsr1 link add name br0 type bridge +ip -net $nsr1 addr flush dev veth0 +ip -net $nsr1 link set up dev veth0 +ip -net $nsr1 link set veth0 master br0 +ip -net $nsr1 addr add 10.0.1.1/24 dev br0 +ip -net $nsr1 addr add dead:1::1/64 dev br0 +ip -net $nsr1 link set up dev br0
-ip netns exec nsr1 sysctl net.ipv4.conf.br0.forwarding=1 > /dev/null +ip netns exec $nsr1 sysctl net.ipv4.conf.br0.forwarding=1 > /dev/null
# br0 with NAT enabled. -ip netns exec nsr1 nft -f - <<EOF +ip netns exec $nsr1 nft -f - <<EOF flush table ip nat table ip nat { chain prerouting { @@ -398,59 +408,59 @@ table ip nat { } EOF
-if test_tcp_forwarding_nat ns1 ns2; then +if test_tcp_forwarding_nat $ns1 $ns2; then echo "PASS: flow offloaded for ns1/ns2 with bridge NAT" else echo "FAIL: flow offload for ns1/ns2 with bridge NAT" 1>&2 - ip netns exec nsr1 nft list ruleset + ip netns exec $nsr1 nft list ruleset ret=1 fi
# Another test: # Add bridge interface br0 to Router1, with NAT and VLAN. -ip -net nsr1 link set veth0 nomaster -ip -net nsr1 link set down dev veth0 -ip -net nsr1 link add link veth0 name veth0.10 type vlan id 10 -ip -net nsr1 link set up dev veth0 -ip -net nsr1 link set up dev veth0.10 -ip -net nsr1 link set veth0.10 master br0 - -ip -net ns1 addr flush dev eth0 -ip -net ns1 link add link eth0 name eth0.10 type vlan id 10 -ip -net ns1 link set eth0 up -ip -net ns1 link set eth0.10 up -ip -net ns1 addr add 10.0.1.99/24 dev eth0.10 -ip -net ns1 route add default via 10.0.1.1 -ip -net ns1 addr add dead:1::99/64 dev eth0.10 - -if test_tcp_forwarding_nat ns1 ns2; then +ip -net $nsr1 link set veth0 nomaster +ip -net $nsr1 link set down dev veth0 +ip -net $nsr1 link add link veth0 name veth0.10 type vlan id 10 +ip -net $nsr1 link set up dev veth0 +ip -net $nsr1 link set up dev veth0.10 +ip -net $nsr1 link set veth0.10 master br0 + +ip -net $ns1 addr flush dev eth0 +ip -net $ns1 link add link eth0 name eth0.10 type vlan id 10 +ip -net $ns1 link set eth0 up +ip -net $ns1 link set eth0.10 up +ip -net $ns1 addr add 10.0.1.99/24 dev eth0.10 +ip -net $ns1 route add default via 10.0.1.1 +ip -net $ns1 addr add dead:1::99/64 dev eth0.10 + +if test_tcp_forwarding_nat $ns1 $ns2; then echo "PASS: flow offloaded for ns1/ns2 with bridge NAT and VLAN" else echo "FAIL: flow offload for ns1/ns2 with bridge NAT and VLAN" 1>&2 - ip netns exec nsr1 nft list ruleset + ip netns exec $nsr1 nft list ruleset ret=1 fi
# restore test topology (remove bridge and VLAN) -ip -net nsr1 link set veth0 nomaster -ip -net nsr1 link set veth0 down -ip -net nsr1 link set veth0.10 down -ip -net nsr1 link delete veth0.10 type vlan -ip -net nsr1 link delete br0 type bridge -ip -net ns1 addr flush dev eth0.10 -ip -net ns1 link set eth0.10 down -ip -net ns1 link set eth0 down -ip -net ns1 link delete eth0.10 type vlan +ip -net $nsr1 link set veth0 nomaster +ip -net $nsr1 link set veth0 down +ip -net $nsr1 link set veth0.10 down +ip -net $nsr1 link delete veth0.10 type vlan +ip -net $nsr1 link delete br0 type bridge +ip -net $ns1 addr flush dev eth0.10 +ip -net $ns1 link set eth0.10 down +ip -net $ns1 link set eth0 down +ip -net $ns1 link delete eth0.10 type vlan
# restore address in ns1 and nsr1 -ip -net ns1 link set eth0 up -ip -net ns1 addr add 10.0.1.99/24 dev eth0 -ip -net ns1 route add default via 10.0.1.1 -ip -net ns1 addr add dead:1::99/64 dev eth0 -ip -net ns1 route add default via dead:1::1 -ip -net nsr1 addr add 10.0.1.1/24 dev veth0 -ip -net nsr1 addr add dead:1::1/64 dev veth0 -ip -net nsr1 link set up dev veth0 +ip -net $ns1 link set eth0 up +ip -net $ns1 addr add 10.0.1.99/24 dev eth0 +ip -net $ns1 route add default via 10.0.1.1 +ip -net $ns1 addr add dead:1::99/64 dev eth0 +ip -net $ns1 route add default via dead:1::1 +ip -net $nsr1 addr add 10.0.1.1/24 dev veth0 +ip -net $nsr1 addr add dead:1::1/64 dev veth0 +ip -net $nsr1 link set up dev veth0
KEY_SHA="0x"$(ps -xaf | sha1sum | cut -d " " -f 1) KEY_AES="0x"$(ps -xaf | md5sum | cut -d " " -f 1) @@ -480,23 +490,23 @@ do_esp() {
}
-do_esp nsr1 192.168.10.1 192.168.10.2 10.0.1.0/24 10.0.2.0/24 $SPI1 $SPI2 +do_esp $nsr1 192.168.10.1 192.168.10.2 10.0.1.0/24 10.0.2.0/24 $SPI1 $SPI2
-do_esp nsr2 192.168.10.2 192.168.10.1 10.0.2.0/24 10.0.1.0/24 $SPI2 $SPI1 +do_esp $nsr2 192.168.10.2 192.168.10.1 10.0.2.0/24 10.0.1.0/24 $SPI2 $SPI1
-ip netns exec nsr1 nft delete table ip nat +ip netns exec $nsr1 nft delete table ip nat
# restore default routes -ip -net ns2 route del 192.168.10.1 via 10.0.2.1 -ip -net ns2 route add default via 10.0.2.1 -ip -net ns2 route add default via dead:2::1 +ip -net $ns2 route del 192.168.10.1 via 10.0.2.1 +ip -net $ns2 route add default via 10.0.2.1 +ip -net $ns2 route add default via dead:2::1
-if test_tcp_forwarding ns1 ns2; then +if test_tcp_forwarding $ns1 $ns2; then echo "PASS: ipsec tunnel mode for ns1/ns2" else echo "FAIL: ipsec tunnel mode for ns1/ns2" - ip netns exec nsr1 nft list ruleset 1>&2 - ip netns exec nsr1 cat /proc/net/xfrm_stat 1>&2 + ip netns exec $nsr1 nft list ruleset 1>&2 + ip netns exec $nsr1 cat /proc/net/xfrm_stat 1>&2 fi
exit $ret