#!/bin/bash # SPDX-License-Identifier: GPL-2.0 ALL_TESTS="standalone two_bridges one_bridge_two_pvids" NUM_NETIFS=4 source lib.sh h1=${NETIFS[p1]} h2=${NETIFS[p3]} swp1=${NETIFS[p2]} swp2=${NETIFS[p4]} H1_IPV4="192.0.2.1" H2_IPV4="192.0.2.2" H1_IPV6="2001:db8:1::1" H2_IPV6="2001:db8:1::2" IPV4_ALLNODES="224.0.0.1" IPV6_ALLNODES="ff02::1" MACV4_ALLNODES="01:00:5e:00:00:01" MACV6_ALLNODES="33:33:00:00:00:01" NON_IP_MC="01:02:03:04:05:06" NON_IP_PKT="00:04 48:45:4c:4f" BC="ff:ff:ff:ff:ff:ff" # The full 4K VLAN space is too much to check, so strategically pick some # values which should provide reasonable coverage vids=(0 1 2 5 10 20 50 100 200 500 1000 1000 2000 4000 4094) send_non_ip() { local if_name=$1 local smac=$2 local dmac=$3 $MZ -q $if_name "$dmac $smac $NON_IP_PKT" } send_uc_ipv4() { local if_name=$1 local dmac=$2 ip neigh add $H2_IPV4 lladdr $dmac dev $if_name ping_do $if_name $H2_IPV4 ip neigh del $H2_IPV4 dev $if_name } send_mc_ipv4() { local if_name=$1 ping_do $if_name $IPV4_ALLNODES "-I $if_name" } send_uc_ipv6() { local if_name=$1 local dmac=$2 ip -6 neigh add $H2_IPV6 lladdr $dmac dev $if_name ping6_do $if_name $H2_IPV6 ip -6 neigh del $H2_IPV6 dev $if_name } send_mc_ipv6() { local if_name=$1 ping6_do $if_name $IPV6_ALLNODES%$if_name } check_rcv() { local if_name=$1 local type=$2 local pattern=$3 local should_fail=1 RET=0 tcpdump_show $if_name | grep -q "$pattern" check_err_fail "$should_fail" "$?" "reception" log_test "$type" } run_test() { local test_name="$1" local smac=$(mac_get $h1) local dmac=$(mac_get $h2) local h1_ipv6_lladdr=$(ipv6_lladdr_get $h1) local vid= echo "$test_name: Sending packets" tcpdump_start $h2 send_non_ip $h1 $smac $dmac send_non_ip $h1 $smac $NON_IP_MC send_non_ip $h1 $smac $BC send_uc_ipv4 $h1 $dmac send_mc_ipv4 $h1 send_uc_ipv6 $h1 $dmac send_mc_ipv6 $h1 for vid in "${vids[@]}"; do vlan_create $h1 $vid simple_if_init $h1.$vid $H1_IPV4/24 $H1_IPV6/64 send_non_ip $h1.$vid $smac $dmac send_non_ip $h1.$vid $smac $NON_IP_MC send_non_ip $h1.$vid $smac $BC send_uc_ipv4 $h1.$vid $dmac send_mc_ipv4 $h1.$vid send_uc_ipv6 $h1.$vid $dmac send_mc_ipv6 $h1.$vid simple_if_fini $h1.$vid $H1_IPV4/24 $H1_IPV6/64 vlan_destroy $h1 $vid done sleep 1 echo "$test_name: Checking which packets were received" tcpdump_stop $h2 check_rcv $h2 "$test_name: Unicast non-IP untagged" \ "$smac > $dmac, 802.3, length 4:" check_rcv $h2 "$test_name: Multicast non-IP untagged" \ "$smac > $NON_IP_MC, 802.3, length 4:" check_rcv $h2 "$test_name: Broadcast non-IP untagged" \ "$smac > $BC, 802.3, length 4:" check_rcv $h2 "$test_name: Unicast IPv4 untagged" \ "$smac > $dmac, ethertype IPv4 (0x0800)" check_rcv $h2 "$test_name: Multicast IPv4 untagged" \ "$smac > $MACV4_ALLNODES, ethertype IPv4 (0x0800).*: $H1_IPV4 > $IPV4_ALLNODES" check_rcv $h2 "$test_name: Unicast IPv6 untagged" \ "$smac > $dmac, ethertype IPv6 (0x86dd).*8: $H1_IPV6 > $H2_IPV6" check_rcv $h2 "$test_name: Multicast IPv6 untagged" \ "$smac > $MACV6_ALLNODES, ethertype IPv6 (0x86dd).*: $h1_ipv6_lladdr > $IPV6_ALLNODES" for vid in "${vids[@]}"; do check_rcv $h2 "$test_name: Unicast non-IP VID $vid" \ "$smac > $dmac, ethertype 802.1Q (0x8100).*vlan $vid,.*length 4" check_rcv $h2 "$test_name: Multicast non-IP VID $vid" \ "$smac > $NON_IP_MC, ethertype 802.1Q (0x8100).*vlan $vid,.*length 4" check_rcv $h2 "$test_name: Broadcast non-IP VID $vid" \ "$smac > $BC, ethertype 802.1Q (0x8100).*vlan $vid,.*length 4" check_rcv $h2 "$test_name: Unicast IPv4 VID $vid" \ "$smac > $dmac, ethertype 802.1Q (0x8100).*vlan $vid,.*ethertype IPv4 (0x0800), $H1_IPV4 > $H2_IPV4" check_rcv $h2 "$test_name: Multicast IPv4 VID $vid" \ "$smac > $MACV4_ALLNODES, ethertype 802.1Q (0x8100).*vlan $vid,.*ethertype IPv4 (0x0800), $H1_IPV4 > $IPV4_ALLNODES" check_rcv $h2 "$test_name: Unicast IPv6 VID $vid" \ "$smac > $dmac, ethertype 802.1Q (0x8100).*vlan $vid,.*ethertype IPv6 (0x86dd), $H1_IPV6 > $H2_IPV6" check_rcv $h2 "$test_name: Multicast IPv6 VID $vid" \ "$smac > $MACV6_ALLNODES, ethertype 802.1Q (0x8100).*vlan $vid,.*ethertype IPv6 (0x86dd), $h1_ipv6_lladdr > $IPV6_ALLNODES" done tcpdump_cleanup $h2 } standalone() { run_test "Standalone switch ports" } two_bridges() { ip link add br0 type bridge && ip link set br0 up ip link add br1 type bridge && ip link set br1 up ip link set $swp1 master br0 ip link set $swp2 master br1 run_test "Switch ports in different bridges" ip link del br1 ip link del br0 } one_bridge_two_pvids() { ip link add br0 type bridge vlan_filtering 1 vlan_default_pvid 0 ip link set br0 up ip link set $swp1 master br0 ip link set $swp2 master br0 bridge vlan add dev $swp1 vid 1 pvid untagged bridge vlan add dev $swp1 vid 2 pvid untagged run_test "Switch ports in VLAN-aware bridge with different PVIDs" ip link del br0 } h1_create() { simple_if_init $h1 $H1_IPV4/24 $H1_IPV6/64 } h1_destroy() { simple_if_fini $h1 $H1_IPV4/24 $H1_IPV6/64 } h2_create() { simple_if_init $h2 $H2_IPV4/24 $H2_IPV6/64 } h2_destroy() { simple_if_fini $h2 $H2_IPV4/24 $H2_IPV6/64 } cleanup() { pre_cleanup h2_destroy h1_destroy vrf_cleanup } setup_prepare() { vrf_prepare h1_create h2_create # we call simple_if_init from the test itself, but setup_wait expects # that we call it from here, and waits until the interfaces are up ip link set dev $swp1 up ip link set dev $swp2 up } trap cleanup EXIT setup_prepare setup_wait tests_run exit $EXIT_STATUS