[PATCH net-next 14/38] selftests/net: convert icmp_redirect.sh to run it in unique namespace

Here is the test result after conversion.

# ./icmp_redirect.sh

########################################################################### Legacy routing ###########################################################################

TEST: IPv4: redirect exception [ OK ]

...

TEST: IPv4: mtu exception plus redirect [ OK ] TEST: IPv6: mtu exception plus redirect [ OK ]

Tests passed: 40 Tests failed: 0 Tests xfailed: 0

Signed-off-by: Hangbin Liu liuhangbin@gmail.com --- tools/testing/selftests/net/icmp_redirect.sh | 182 +++++++++---------- 1 file changed, 88 insertions(+), 94 deletions(-)

diff --git a/tools/testing/selftests/net/icmp_redirect.sh b/tools/testing/selftests/net/icmp_redirect.sh index 7b9d6e31b8e7..d6f0e449c029 100755 --- a/tools/testing/selftests/net/icmp_redirect.sh +++ b/tools/testing/selftests/net/icmp_redirect.sh @@ -19,6 +19,7 @@ # Route on r1 changed to go to r2 via eth0. This causes a redirect to be sent # from r1 to h1 telling h1 to use r2 when talking to h2.

+source lib.sh VERBOSE=0 PAUSE_ON_FAIL=no

@@ -140,11 +141,7 @@ get_linklocal()

cleanup() { - local ns - - for ns in h1 h2 r1 r2; do - ip netns del $ns 2>/dev/null - done + cleanup_ns $h1 $h2 $r1 $r2 }

create_vrf() @@ -171,102 +168,99 @@ setup()

# # create nodes as namespaces - # - for ns in h1 h2 r1 r2; do - ip netns add $ns - ip -netns $ns li set lo up - - case "${ns}" in - h[12]) ip netns exec $ns sysctl -q -w net.ipv4.conf.all.accept_redirects=1 - ip netns exec $ns sysctl -q -w net.ipv6.conf.all.forwarding=0 - ip netns exec $ns sysctl -q -w net.ipv6.conf.all.accept_redirects=1 - ip netns exec $ns sysctl -q -w net.ipv6.conf.all.keep_addr_on_down=1 - ;; - r[12]) ip netns exec $ns sysctl -q -w net.ipv4.ip_forward=1 - ip netns exec $ns sysctl -q -w net.ipv4.conf.all.send_redirects=1 - ip netns exec $ns sysctl -q -w net.ipv4.conf.default.rp_filter=0 - ip netns exec $ns sysctl -q -w net.ipv4.conf.all.rp_filter=0 - - ip netns exec $ns sysctl -q -w net.ipv6.conf.all.forwarding=1 - ip netns exec $ns sysctl -q -w net.ipv6.route.mtu_expires=10 - esac + setup_ns h1 h2 r1 r2 + for ns in $h1 $h2 $r1 $r2; do + if echo $ns | grep -q h[12]-; then + ip netns exec $ns sysctl -q -w net.ipv4.conf.all.accept_redirects=1 + ip netns exec $ns sysctl -q -w net.ipv6.conf.all.forwarding=0 + ip netns exec $ns sysctl -q -w net.ipv6.conf.all.accept_redirects=1 + ip netns exec $ns sysctl -q -w net.ipv6.conf.all.keep_addr_on_down=1 + else + ip netns exec $ns sysctl -q -w net.ipv4.ip_forward=1 + ip netns exec $ns sysctl -q -w net.ipv4.conf.all.send_redirects=1 + ip netns exec $ns sysctl -q -w net.ipv4.conf.default.rp_filter=0 + ip netns exec $ns sysctl -q -w net.ipv4.conf.all.rp_filter=0 + + ip netns exec $ns sysctl -q -w net.ipv6.conf.all.forwarding=1 + ip netns exec $ns sysctl -q -w net.ipv6.route.mtu_expires=10 + fi done

# # create interconnects # - ip -netns h1 li add eth0 type veth peer name r1h1 - ip -netns h1 li set r1h1 netns r1 name eth0 up + ip -netns $h1 li add eth0 type veth peer name r1h1 + ip -netns $h1 li set r1h1 netns $r1 name eth0 up

- ip -netns h1 li add eth1 type veth peer name r2h1 - ip -netns h1 li set r2h1 netns r2 name eth0 up + ip -netns $h1 li add eth1 type veth peer name r2h1 + ip -netns $h1 li set r2h1 netns $r2 name eth0 up

- ip -netns h2 li add eth0 type veth peer name r2h2 - ip -netns h2 li set eth0 up - ip -netns h2 li set r2h2 netns r2 name eth2 up + ip -netns $h2 li add eth0 type veth peer name r2h2 + ip -netns $h2 li set eth0 up + ip -netns $h2 li set r2h2 netns $r2 name eth2 up

- ip -netns r1 li add eth1 type veth peer name r2r1 - ip -netns r1 li set eth1 up - ip -netns r1 li set r2r1 netns r2 name eth1 up + ip -netns $r1 li add eth1 type veth peer name r2r1 + ip -netns $r1 li set eth1 up + ip -netns $r1 li set r2r1 netns $r2 name eth1 up

# # h1 # if [ "${WITH_VRF}" = "yes" ]; then - create_vrf "h1" + create_vrf "$h1" H1_VRF_ARG="vrf ${VRF}" H1_PING_ARG="-I ${VRF}" else H1_VRF_ARG= H1_PING_ARG= fi - ip -netns h1 li add br0 type bridge + ip -netns $h1 li add br0 type bridge if [ "${WITH_VRF}" = "yes" ]; then - ip -netns h1 li set br0 vrf ${VRF} up + ip -netns $h1 li set br0 vrf ${VRF} up else - ip -netns h1 li set br0 up + ip -netns $h1 li set br0 up fi - ip -netns h1 addr add dev br0 ${H1_N1_IP}/24 - ip -netns h1 -6 addr add dev br0 ${H1_N1_IP6}/64 nodad - ip -netns h1 li set eth0 master br0 up - ip -netns h1 li set eth1 master br0 up + ip -netns $h1 addr add dev br0 ${H1_N1_IP}/24 + ip -netns $h1 -6 addr add dev br0 ${H1_N1_IP6}/64 nodad + ip -netns $h1 li set eth0 master br0 up + ip -netns $h1 li set eth1 master br0 up

# # h2 # - ip -netns h2 addr add dev eth0 ${H2_N2_IP}/24 - ip -netns h2 ro add default via ${R2_N2_IP} dev eth0 - ip -netns h2 -6 addr add dev eth0 ${H2_N2_IP6}/64 nodad - ip -netns h2 -6 ro add default via ${R2_N2_IP6} dev eth0 + ip -netns $h2 addr add dev eth0 ${H2_N2_IP}/24 + ip -netns $h2 ro add default via ${R2_N2_IP} dev eth0 + ip -netns $h2 -6 addr add dev eth0 ${H2_N2_IP6}/64 nodad + ip -netns $h2 -6 ro add default via ${R2_N2_IP6} dev eth0

# # r1 # - ip -netns r1 addr add dev eth0 ${R1_N1_IP}/24 - ip -netns r1 -6 addr add dev eth0 ${R1_N1_IP6}/64 nodad - ip -netns r1 addr add dev eth1 ${R1_R2_N1_IP}/30 - ip -netns r1 -6 addr add dev eth1 ${R1_R2_N1_IP6}/126 nodad + ip -netns $r1 addr add dev eth0 ${R1_N1_IP}/24 + ip -netns $r1 -6 addr add dev eth0 ${R1_N1_IP6}/64 nodad + ip -netns $r1 addr add dev eth1 ${R1_R2_N1_IP}/30 + ip -netns $r1 -6 addr add dev eth1 ${R1_R2_N1_IP6}/126 nodad

# # r2 # - ip -netns r2 addr add dev eth0 ${R2_N1_IP}/24 - ip -netns r2 -6 addr add dev eth0 ${R2_N1_IP6}/64 nodad - ip -netns r2 addr add dev eth1 ${R2_R1_N1_IP}/30 - ip -netns r2 -6 addr add dev eth1 ${R2_R1_N1_IP6}/126 nodad - ip -netns r2 addr add dev eth2 ${R2_N2_IP}/24 - ip -netns r2 -6 addr add dev eth2 ${R2_N2_IP6}/64 nodad + ip -netns $r2 addr add dev eth0 ${R2_N1_IP}/24 + ip -netns $r2 -6 addr add dev eth0 ${R2_N1_IP6}/64 nodad + ip -netns $r2 addr add dev eth1 ${R2_R1_N1_IP}/30 + ip -netns $r2 -6 addr add dev eth1 ${R2_R1_N1_IP6}/126 nodad + ip -netns $r2 addr add dev eth2 ${R2_N2_IP}/24 + ip -netns $r2 -6 addr add dev eth2 ${R2_N2_IP6}/64 nodad

sleep 2

- R1_LLADDR=$(get_linklocal r1 eth0) + R1_LLADDR=$(get_linklocal $r1 eth0) if [ $? -ne 0 ]; then echo "Error: Failed to get link-local address of r1's eth0" exit 1 fi log_debug "initial gateway is R1's lladdr = ${R1_LLADDR}"

- R2_LLADDR=$(get_linklocal r2 eth0) + R2_LLADDR=$(get_linklocal $r2 eth0) if [ $? -ne 0 ]; then echo "Error: Failed to get link-local address of r2's eth0" exit 1 @@ -278,8 +272,8 @@ change_h2_mtu() { local mtu=$1

- run_cmd ip -netns h2 li set eth0 mtu ${mtu} - run_cmd ip -netns r2 li set eth2 mtu ${mtu} + run_cmd ip -netns $h2 li set eth0 mtu ${mtu} + run_cmd ip -netns $r2 li set eth2 mtu ${mtu} }

check_exception() @@ -291,40 +285,40 @@ check_exception() # From 172.16.1.101: icmp_seq=1 Redirect Host(New nexthop: 172.16.1.102) if [ "$VERBOSE" = "1" ]; then echo "Commands to check for exception:" - run_cmd ip -netns h1 ro get ${H1_VRF_ARG} ${H2_N2_IP} - run_cmd ip -netns h1 -6 ro get ${H1_VRF_ARG} ${H2_N2_IP6} + run_cmd ip -netns $h1 ro get ${H1_VRF_ARG} ${H2_N2_IP} + run_cmd ip -netns $h1 -6 ro get ${H1_VRF_ARG} ${H2_N2_IP6} fi

if [ -n "${mtu}" ]; then mtu=" mtu ${mtu}" fi if [ "$with_redirect" = "yes" ]; then - ip -netns h1 ro get ${H1_VRF_ARG} ${H2_N2_IP} | \ + ip -netns $h1 ro get ${H1_VRF_ARG} ${H2_N2_IP} | \ grep -q "cache <redirected> expires [0-9]*sec${mtu}" elif [ -n "${mtu}" ]; then - ip -netns h1 ro get ${H1_VRF_ARG} ${H2_N2_IP} | \ + ip -netns $h1 ro get ${H1_VRF_ARG} ${H2_N2_IP} | \ grep -q "cache expires [0-9]*sec${mtu}" else # want to verify that neither mtu nor redirected appears in # the route get output. The -v will wipe out the cache line # if either are set so the last grep -q will not find a match - ip -netns h1 ro get ${H1_VRF_ARG} ${H2_N2_IP} | \ + ip -netns $h1 ro get ${H1_VRF_ARG} ${H2_N2_IP} | \ grep -E -v 'mtu|redirected' | grep -q "cache" fi log_test $? 0 "IPv4: ${desc}" 0

# No PMTU info for test "redirect" and "mtu exception plus redirect" if [ "$with_redirect" = "yes" ] && [ "$desc" != "redirect exception plus mtu" ]; then - ip -netns h1 -6 ro get ${H1_VRF_ARG} ${H2_N2_IP6} | \ + ip -netns $h1 -6 ro get ${H1_VRF_ARG} ${H2_N2_IP6} | \ grep -v "mtu" | grep -q "${H2_N2_IP6} .*via ${R2_LLADDR} dev br0" elif [ -n "${mtu}" ]; then - ip -netns h1 -6 ro get ${H1_VRF_ARG} ${H2_N2_IP6} | \ + ip -netns $h1 -6 ro get ${H1_VRF_ARG} ${H2_N2_IP6} | \ grep -q "${mtu}" else # IPv6 is a bit harder. First strip out the match if it # contains an mtu exception and then look for the first # gateway - R1's lladdr - ip -netns h1 -6 ro get ${H1_VRF_ARG} ${H2_N2_IP6} | \ + ip -netns $h1 -6 ro get ${H1_VRF_ARG} ${H2_N2_IP6} | \ grep -v "mtu" | grep -q "${R1_LLADDR}" fi log_test $? 0 "IPv6: ${desc}" 1 @@ -334,21 +328,21 @@ run_ping() { local sz=$1

- run_cmd ip netns exec h1 ping -q -M want -i 0.5 -c 10 -w 2 -s ${sz} ${H1_PING_ARG} ${H2_N2_IP} - run_cmd ip netns exec h1 ${ping6} -q -M want -i 0.5 -c 10 -w 2 -s ${sz} ${H1_PING_ARG} ${H2_N2_IP6} + run_cmd ip netns exec $h1 ping -q -M want -i 0.5 -c 10 -w 2 -s ${sz} ${H1_PING_ARG} ${H2_N2_IP} + run_cmd ip netns exec $h1 ${ping6} -q -M want -i 0.5 -c 10 -w 2 -s ${sz} ${H1_PING_ARG} ${H2_N2_IP6} }

replace_route_new() { # r1 to h2 via r2 and eth0 - run_cmd ip -netns r1 nexthop replace id 1 via ${R2_N1_IP} dev eth0 - run_cmd ip -netns r1 nexthop replace id 2 via ${R2_LLADDR} dev eth0 + run_cmd ip -netns $r1 nexthop replace id 1 via ${R2_N1_IP} dev eth0 + run_cmd ip -netns $r1 nexthop replace id 2 via ${R2_LLADDR} dev eth0 }

reset_route_new() { - run_cmd ip -netns r1 nexthop flush - run_cmd ip -netns h1 nexthop flush + run_cmd ip -netns $r1 nexthop flush + run_cmd ip -netns $h1 nexthop flush

initial_route_new } @@ -356,34 +350,34 @@ reset_route_new() initial_route_new() { # r1 to h2 via r2 and eth1 - run_cmd ip -netns r1 nexthop add id 1 via ${R2_R1_N1_IP} dev eth1 - run_cmd ip -netns r1 ro add ${H2_N2} nhid 1 + run_cmd ip -netns $r1 nexthop add id 1 via ${R2_R1_N1_IP} dev eth1 + run_cmd ip -netns $r1 ro add ${H2_N2} nhid 1

- run_cmd ip -netns r1 nexthop add id 2 via ${R2_R1_N1_IP6} dev eth1 - run_cmd ip -netns r1 -6 ro add ${H2_N2_6} nhid 2 + run_cmd ip -netns $r1 nexthop add id 2 via ${R2_R1_N1_IP6} dev eth1 + run_cmd ip -netns $r1 -6 ro add ${H2_N2_6} nhid 2

# h1 to h2 via r1 - run_cmd ip -netns h1 nexthop add id 1 via ${R1_N1_IP} dev br0 - run_cmd ip -netns h1 ro add ${H1_VRF_ARG} ${H2_N2} nhid 1 + run_cmd ip -netns $h1 nexthop add id 1 via ${R1_N1_IP} dev br0 + run_cmd ip -netns $h1 ro add ${H1_VRF_ARG} ${H2_N2} nhid 1

- run_cmd ip -netns h1 nexthop add id 2 via ${R1_LLADDR} dev br0 - run_cmd ip -netns h1 -6 ro add ${H1_VRF_ARG} ${H2_N2_6} nhid 2 + run_cmd ip -netns $h1 nexthop add id 2 via ${R1_LLADDR} dev br0 + run_cmd ip -netns $h1 -6 ro add ${H1_VRF_ARG} ${H2_N2_6} nhid 2 }

replace_route_legacy() { # r1 to h2 via r2 and eth0 - run_cmd ip -netns r1 ro replace ${H2_N2} via ${R2_N1_IP} dev eth0 - run_cmd ip -netns r1 -6 ro replace ${H2_N2_6} via ${R2_LLADDR} dev eth0 + run_cmd ip -netns $r1 ro replace ${H2_N2} via ${R2_N1_IP} dev eth0 + run_cmd ip -netns $r1 -6 ro replace ${H2_N2_6} via ${R2_LLADDR} dev eth0 }

reset_route_legacy() { - run_cmd ip -netns r1 ro del ${H2_N2} - run_cmd ip -netns r1 -6 ro del ${H2_N2_6} + run_cmd ip -netns $r1 ro del ${H2_N2} + run_cmd ip -netns $r1 -6 ro del ${H2_N2_6}

- run_cmd ip -netns h1 ro del ${H1_VRF_ARG} ${H2_N2} - run_cmd ip -netns h1 -6 ro del ${H1_VRF_ARG} ${H2_N2_6} + run_cmd ip -netns $h1 ro del ${H1_VRF_ARG} ${H2_N2} + run_cmd ip -netns $h1 -6 ro del ${H1_VRF_ARG} ${H2_N2_6}

initial_route_legacy } @@ -391,22 +385,22 @@ reset_route_legacy() initial_route_legacy() { # r1 to h2 via r2 and eth1 - run_cmd ip -netns r1 ro add ${H2_N2} via ${R2_R1_N1_IP} dev eth1 - run_cmd ip -netns r1 -6 ro add ${H2_N2_6} via ${R2_R1_N1_IP6} dev eth1 + run_cmd ip -netns $r1 ro add ${H2_N2} via ${R2_R1_N1_IP} dev eth1 + run_cmd ip -netns $r1 -6 ro add ${H2_N2_6} via ${R2_R1_N1_IP6} dev eth1

# h1 to h2 via r1 # - IPv6 redirect only works if gateway is the LLA - run_cmd ip -netns h1 ro add ${H1_VRF_ARG} ${H2_N2} via ${R1_N1_IP} dev br0 - run_cmd ip -netns h1 -6 ro add ${H1_VRF_ARG} ${H2_N2_6} via ${R1_LLADDR} dev br0 + run_cmd ip -netns $h1 ro add ${H1_VRF_ARG} ${H2_N2} via ${R1_N1_IP} dev br0 + run_cmd ip -netns $h1 -6 ro add ${H1_VRF_ARG} ${H2_N2_6} via ${R1_LLADDR} dev br0 }

check_connectivity() { local rc

- run_cmd ip netns exec h1 ping -c1 -w1 ${H1_PING_ARG} ${H2_N2_IP} + run_cmd ip netns exec $h1 ping -c1 -w1 ${H1_PING_ARG} ${H2_N2_IP} rc=$? - run_cmd ip netns exec h1 ${ping6} -c1 -w1 ${H1_PING_ARG} ${H2_N2_IP6} + run_cmd ip netns exec $h1 ${ping6} -c1 -w1 ${H1_PING_ARG} ${H2_N2_IP6} [ $? -ne 0 ] && rc=$?

return $rc