#!/bin/bash # SPDX-License-Identifier: GPL-2.0 # # OVS kernel module self tests trap ovs_exit_sig EXIT TERM INT ERR # Kselftest framework requirement - SKIP code is 4. ksft_skip=4 PAUSE_ON_FAIL=no VERBOSE=0 TRACING=0 WAIT_TIMEOUT=5 if test "X$KSFT_MACHINE_SLOW" == "Xyes"; then WAIT_TIMEOUT=10 fi tests=" arp_ping eth-arp: Basic arp ping between two NS ct_connect_v4 ip4-ct-xon: Basic ipv4 tcp connection using ct connect_v4 ip4-xon: Basic ipv4 ping between two NS nat_connect_v4 ip4-nat-xon: Basic ipv4 tcp connection via NAT nat_related_v4 ip4-nat-related: ICMP related matches work with SNAT netlink_checks ovsnl: validate netlink attrs and settings upcall_interfaces ovs: test the upcall interfaces drop_reason drop: test drop reasons are emitted psample psample: Sampling packets with psample" info() { [ "${ovs_dir}" != "" ] && echo "`date +"[%m-%d %H:%M:%S]"` $*" >> ${ovs_dir}/debug.log [ $VERBOSE = 0 ] || echo $* } ovs_wait() { info "waiting $WAIT_TIMEOUT s for: $@" if "$@" ; then info "wait succeeded immediately" return 0 fi # A quick re-check helps speed up small races in fast systems. # However, fractional sleeps might not necessarily work. local start=0 sleep 0.1 || { sleep 1; start=1; } for (( i=start; i ${ovs_dir}/cleanup.tmp cat ${ovs_dir}/cleanup >> ${ovs_dir}/cleanup.tmp mv ${ovs_dir}/cleanup.tmp ${ovs_dir}/cleanup } ovs_setenv() { sandbox=$1 ovs_dir=$ovs_base${1:+/$1}; export ovs_dir test -e ${ovs_dir}/cleanup || : > ${ovs_dir}/cleanup } ovs_sbx() { if test "X$2" != X; then (ovs_setenv $1; shift; info "run cmd: $@"; "$@" >> ${ovs_dir}/debug.log) else ovs_setenv $1 fi } ovs_add_dp () { info "Adding DP/Bridge IF: sbx:$1 dp:$2 {$3, $4, $5}" sbxname="$1" shift ovs_sbx "$sbxname" python3 $ovs_base/ovs-dpctl.py add-dp $* on_exit "ovs_sbx $sbxname python3 $ovs_base/ovs-dpctl.py del-dp $1;" } ovs_add_if () { info "Adding IF to DP: br:$2 if:$3" if [ "$4" != "-u" ]; then ovs_sbx "$1" python3 $ovs_base/ovs-dpctl.py add-if "$2" "$3" \ || return 1 else python3 $ovs_base/ovs-dpctl.py add-if \ -u "$2" "$3" >$ovs_dir/$3.out 2>$ovs_dir/$3.err & pid=$! on_exit "ovs_sbx $1 kill -TERM $pid 2>/dev/null" fi } ovs_del_if () { info "Deleting IF from DP: br:$2 if:$3" ovs_sbx "$1" python3 $ovs_base/ovs-dpctl.py del-if "$2" "$3" || return 1 } ovs_netns_spawn_daemon() { sbx=$1 shift netns=$1 shift if [ "$netns" == "_default" ]; then $* >> $ovs_dir/stdout 2>> $ovs_dir/stderr & else ip netns exec $netns $* >> $ovs_dir/stdout 2>> $ovs_dir/stderr & fi pid=$! ovs_sbx "$sbx" on_exit "kill -TERM $pid 2>/dev/null" } ovs_spawn_daemon() { sbx=$1 shift ovs_netns_spawn_daemon $sbx "_default" $* } ovs_add_netns_and_veths () { info "Adding netns attached: sbx:$1 dp:$2 {$3, $4, $5}" ovs_sbx "$1" ip netns add "$3" || return 1 on_exit "ovs_sbx $1 ip netns del $3" ovs_sbx "$1" ip link add "$4" type veth peer name "$5" || return 1 on_exit "ovs_sbx $1 ip link del $4 >/dev/null 2>&1" ovs_sbx "$1" ip link set "$4" up || return 1 ovs_sbx "$1" ip link set "$5" netns "$3" || return 1 ovs_sbx "$1" ip netns exec "$3" ip link set "$5" up || return 1 if [ "$6" != "" ]; then ovs_sbx "$1" ip netns exec "$3" ip addr add "$6" dev "$5" \ || return 1 fi if [ "$7" != "-u" ]; then ovs_add_if "$1" "$2" "$4" || return 1 else ovs_add_if "$1" "$2" "$4" -u || return 1 fi [ $TRACING -eq 1 ] && ovs_netns_spawn_daemon "$1" "$ns" \ tcpdump -i any -s 65535 return 0 } ovs_add_flow () { info "Adding flow to DP: sbx:$1 br:$2 flow:$3 act:$4" ovs_sbx "$1" python3 $ovs_base/ovs-dpctl.py add-flow "$2" "$3" "$4" if [ $? -ne 0 ]; then info "Flow [ $3 : $4 ] failed" return 1 fi return 0 } ovs_del_flows () { info "Deleting all flows from DP: sbx:$1 br:$2" ovs_sbx "$1" python3 $ovs_base/ovs-dpctl.py del-flows "$2" return 0 } ovs_drop_record_and_run () { local sbx=$1 shift perf record -a -q -e skb:kfree_skb -o ${ovs_dir}/perf.data $* \ >> ${ovs_dir}/stdout 2>> ${ovs_dir}/stderr return $? } ovs_drop_reason_count() { local reason=$1 local perf_output=`perf script -i ${ovs_dir}/perf.data -F trace:event,trace` local pattern="skb:kfree_skb:.*reason: $reason" return `echo "$perf_output" | grep "$pattern" | wc -l` } ovs_test_flow_fails () { ERR_MSG="Flow actions may not be safe on all matching packets" PRE_TEST=$(dmesg | grep -c "${ERR_MSG}") ovs_add_flow $@ &> /dev/null $@ && return 1 POST_TEST=$(dmesg | grep -c "${ERR_MSG}") if [ "$PRE_TEST" == "$POST_TEST" ]; then return 1 fi return 0 } usage() { echo echo "$0 [OPTIONS] [TEST]..." echo "If no TEST argument is given, all tests will be run." echo echo "Options" echo " -t: capture traffic via tcpdump" echo " -v: verbose" echo " -p: pause on failure" echo echo "Available tests${tests}" exit 1 } # psample test # - use psample to observe packets test_psample() { sbx_add "test_psample" || return $? # Add a datapath with per-vport dispatching. ovs_add_dp "test_psample" psample -V 2:1 || return 1 info "create namespaces" ovs_add_netns_and_veths "test_psample" "psample" \ client c0 c1 172.31.110.10/24 -u || return 1 ovs_add_netns_and_veths "test_psample" "psample" \ server s0 s1 172.31.110.20/24 -u || return 1 # Check if psample actions can be configured. ovs_add_flow "test_psample" psample \ 'in_port(1),eth(),eth_type(0x0806),arp()' 'psample(group=1)' &> /dev/null if [ $? == 1 ]; then info "no support for psample - skipping" ovs_exit_sig return $ksft_skip fi ovs_del_flows "test_psample" psample # Test action verification. OLDIFS=$IFS IFS='*' min_key='in_port(1),eth(),eth_type(0x0800),ipv4()' for testcase in \ "cookie to large"*"psample(group=1,cookie=1615141312111009080706050403020100)" \ "no group with cookie"*"psample(cookie=abcd)" \ "no group"*"psample()"; do set -- $testcase; ovs_test_flow_fails "test_psample" psample $min_key $2 if [ $? == 1 ]; then info "failed - $1" return 1 fi done IFS=$OLDIFS ovs_del_flows "test_psample" psample # Allow ARP ovs_add_flow "test_psample" psample \ 'in_port(1),eth(),eth_type(0x0806),arp()' '2' || return 1 ovs_add_flow "test_psample" psample \ 'in_port(2),eth(),eth_type(0x0806),arp()' '1' || return 1 # Sample first 14 bytes of all traffic. ovs_add_flow "test_psample" psample \ "in_port(1),eth(),eth_type(0x0800),ipv4()" \ "trunc(14),psample(group=1,cookie=c0ffee),2" # Sample all traffic. In this case, use a sample() action with both # psample and an upcall emulating simultaneous local sampling and # sFlow / IPFIX. nlpid=$(grep -E "listening on upcall packet handler" \ $ovs_dir/s0.out | cut -d ":" -f 2 | tr -d ' ') ovs_add_flow "test_psample" psample \ "in_port(2),eth(),eth_type(0x0800),ipv4()" \ "sample(sample=100%,actions(psample(group=2,cookie=eeff0c),userspace(pid=${nlpid},userdata=eeff0c))),1" # Record psample data. ovs_spawn_daemon "test_psample" python3 $ovs_base/ovs-dpctl.py psample-events ovs_wait grep -q "listening for psample events" ${ovs_dir}/stdout # Send a single ping. ovs_sbx "test_psample" ip netns exec client ping -I c1 172.31.110.20 -c 1 || return 1 # We should have received one userspace action upcall and 2 psample packets. ovs_wait grep -q "userspace action command" $ovs_dir/s0.out || return 1 # client -> server samples should only contain the first 14 bytes of the packet. ovs_wait grep -qE "rate:4294967295,group:1,cookie:c0ffee data:[0-9a-f]{28}$" \ $ovs_dir/stdout || return 1 ovs_wait grep -q "rate:4294967295,group:2,cookie:eeff0c" $ovs_dir/stdout || return 1 return 0 } # drop_reason test # - drop packets and verify the right drop reason is reported test_drop_reason() { which perf >/dev/null 2>&1 || return $ksft_skip sbx_add "test_drop_reason" || return $? ovs_add_dp "test_drop_reason" dropreason || return 1 info "create namespaces" for ns in client server; do ovs_add_netns_and_veths "test_drop_reason" "dropreason" "$ns" \ "${ns:0:1}0" "${ns:0:1}1" || return 1 done # Setup client namespace ip netns exec client ip addr add 172.31.110.10/24 dev c1 ip netns exec client ip link set c1 up # Setup server namespace ip netns exec server ip addr add 172.31.110.20/24 dev s1 ip netns exec server ip link set s1 up # Check if drop reasons can be sent ovs_add_flow "test_drop_reason" dropreason \ 'in_port(1),eth(),eth_type(0x0806),arp()' 'drop(10)' 2>/dev/null if [ $? == 1 ]; then info "no support for drop reasons - skipping" ovs_exit_sig return $ksft_skip fi ovs_del_flows "test_drop_reason" dropreason # Allow ARP ovs_add_flow "test_drop_reason" dropreason \ 'in_port(1),eth(),eth_type(0x0806),arp()' '2' || return 1 ovs_add_flow "test_drop_reason" dropreason \ 'in_port(2),eth(),eth_type(0x0806),arp()' '1' || return 1 # Allow client ICMP traffic but drop return path ovs_add_flow "test_drop_reason" dropreason \ "in_port(1),eth(),eth_type(0x0800),ipv4(src=172.31.110.10,proto=1),icmp()" '2' ovs_add_flow "test_drop_reason" dropreason \ "in_port(2),eth(),eth_type(0x0800),ipv4(src=172.31.110.20,proto=1),icmp()" 'drop' ovs_drop_record_and_run "test_drop_reason" ip netns exec client ping -c 2 172.31.110.20 ovs_drop_reason_count 0x30001 # OVS_DROP_FLOW_ACTION if [[ "$?" -ne "2" ]]; then info "Did not detect expected drops: $?" return 1 fi # Drop UDP 6000 traffic with an explicit action and an error code. ovs_add_flow "test_drop_reason" dropreason \ "in_port(1),eth(),eth_type(0x0800),ipv4(src=172.31.110.10,proto=17),udp(dst=6000)" \ 'drop(42)' # Drop UDP 7000 traffic with an explicit action with no error code. ovs_add_flow "test_drop_reason" dropreason \ "in_port(1),eth(),eth_type(0x0800),ipv4(src=172.31.110.10,proto=17),udp(dst=7000)" \ 'drop(0)' ovs_drop_record_and_run \ "test_drop_reason" ip netns exec client nc -i 1 -zuv 172.31.110.20 6000 ovs_drop_reason_count 0x30004 # OVS_DROP_EXPLICIT_ACTION_ERROR if [[ "$?" -ne "1" ]]; then info "Did not detect expected explicit error drops: $?" return 1 fi ovs_drop_record_and_run \ "test_drop_reason" ip netns exec client nc -i 1 -zuv 172.31.110.20 7000 ovs_drop_reason_count 0x30003 # OVS_DROP_EXPLICIT_ACTION if [[ "$?" -ne "1" ]]; then info "Did not detect expected explicit drops: $?" return 1 fi return 0 } # arp_ping test # - client has 1500 byte MTU # - server has 1500 byte MTU # - send ARP ping between two ns test_arp_ping () { which arping >/dev/null 2>&1 || return $ksft_skip sbx_add "test_arp_ping" || return $? ovs_add_dp "test_arp_ping" arpping || return 1 info "create namespaces" for ns in client server; do ovs_add_netns_and_veths "test_arp_ping" "arpping" "$ns" \ "${ns:0:1}0" "${ns:0:1}1" || return 1 done # Setup client namespace ip netns exec client ip addr add 172.31.110.10/24 dev c1 ip netns exec client ip link set c1 up HW_CLIENT=`ip netns exec client ip link show dev c1 | grep -E 'link/ether [0-9a-f:]+' | awk '{print $2;}'` info "Client hwaddr: $HW_CLIENT" # Setup server namespace ip netns exec server ip addr add 172.31.110.20/24 dev s1 ip netns exec server ip link set s1 up HW_SERVER=`ip netns exec server ip link show dev s1 | grep -E 'link/ether [0-9a-f:]+' | awk '{print $2;}'` info "Server hwaddr: $HW_SERVER" ovs_add_flow "test_arp_ping" arpping \ "in_port(1),eth(),eth_type(0x0806),arp(sip=172.31.110.10,tip=172.31.110.20,sha=$HW_CLIENT,tha=ff:ff:ff:ff:ff:ff)" '2' || return 1 ovs_add_flow "test_arp_ping" arpping \ "in_port(2),eth(),eth_type(0x0806),arp()" '1' || return 1 ovs_sbx "test_arp_ping" ip netns exec client arping -I c1 172.31.110.20 -c 1 || return 1 return 0 } # ct_connect_v4 test # - client has 1500 byte MTU # - server has 1500 byte MTU # - use ICMP to ping in each direction # - only allow CT state stuff to pass through new in c -> s test_ct_connect_v4 () { which nc >/dev/null 2>/dev/null || return $ksft_skip sbx_add "test_ct_connect_v4" || return $? ovs_add_dp "test_ct_connect_v4" ct4 || return 1 info "create namespaces" for ns in client server; do ovs_add_netns_and_veths "test_ct_connect_v4" "ct4" "$ns" \ "${ns:0:1}0" "${ns:0:1}1" || return 1 done ip netns exec client ip addr add 172.31.110.10/24 dev c1 ip netns exec client ip link set c1 up ip netns exec server ip addr add 172.31.110.20/24 dev s1 ip netns exec server ip link set s1 up # Add forwarding for ARP and ip packets - completely wildcarded ovs_add_flow "test_ct_connect_v4" ct4 \ 'in_port(1),eth(),eth_type(0x0806),arp()' '2' || return 1 ovs_add_flow "test_ct_connect_v4" ct4 \ 'in_port(2),eth(),eth_type(0x0806),arp()' '1' || return 1 ovs_add_flow "test_ct_connect_v4" ct4 \ 'ct_state(-trk),eth(),eth_type(0x0800),ipv4()' \ 'ct(commit),recirc(0x1)' || return 1 ovs_add_flow "test_ct_connect_v4" ct4 \ 'recirc_id(0x1),ct_state(+trk+new),in_port(1),eth(),eth_type(0x0800),ipv4(src=172.31.110.10)' \ '2' || return 1 ovs_add_flow "test_ct_connect_v4" ct4 \ 'recirc_id(0x1),ct_state(+trk+est),in_port(1),eth(),eth_type(0x0800),ipv4(src=172.31.110.10)' \ '2' || return 1 ovs_add_flow "test_ct_connect_v4" ct4 \ 'recirc_id(0x1),ct_state(+trk+est),in_port(2),eth(),eth_type(0x0800),ipv4(dst=172.31.110.10)' \ '1' || return 1 ovs_add_flow "test_ct_connect_v4" ct4 \ 'recirc_id(0x1),ct_state(+trk+inv),eth(),eth_type(0x0800),ipv4()' 'drop' || \ return 1 # do a ping ovs_sbx "test_ct_connect_v4" ip netns exec client ping 172.31.110.20 -c 3 || return 1 # create an echo server in 'server' echo "server" | \ ovs_netns_spawn_daemon "test_ct_connect_v4" "server" \ nc -lvnp 4443 ovs_sbx "test_ct_connect_v4" ip netns exec client nc -i 1 -zv 172.31.110.20 4443 || return 1 # Now test in the other direction (should fail) echo "client" | \ ovs_netns_spawn_daemon "test_ct_connect_v4" "client" \ nc -lvnp 4443 ovs_sbx "test_ct_connect_v4" ip netns exec client nc -i 1 -zv 172.31.110.10 4443 if [ $? == 0 ]; then info "ct connect to client was successful" return 1 fi info "done..." return 0 } # connect_v4 test # - client has 1500 byte MTU # - server has 1500 byte MTU # - use ICMP to ping in each direction test_connect_v4 () { sbx_add "test_connect_v4" || return $? ovs_add_dp "test_connect_v4" cv4 || return 1 info "create namespaces" for ns in client server; do ovs_add_netns_and_veths "test_connect_v4" "cv4" "$ns" \ "${ns:0:1}0" "${ns:0:1}1" || return 1 done ip netns exec client ip addr add 172.31.110.10/24 dev c1 ip netns exec client ip link set c1 up ip netns exec server ip addr add 172.31.110.20/24 dev s1 ip netns exec server ip link set s1 up # Add forwarding for ARP and ip packets - completely wildcarded ovs_add_flow "test_connect_v4" cv4 \ 'in_port(1),eth(),eth_type(0x0806),arp()' '2' || return 1 ovs_add_flow "test_connect_v4" cv4 \ 'in_port(2),eth(),eth_type(0x0806),arp()' '1' || return 1 ovs_add_flow "test_connect_v4" cv4 \ 'in_port(1),eth(),eth_type(0x0800),ipv4(src=172.31.110.10)' '2' || return 1 ovs_add_flow "test_connect_v4" cv4 \ 'in_port(2),eth(),eth_type(0x0800),ipv4(src=172.31.110.20)' '1' || return 1 # do a ping ovs_sbx "test_connect_v4" ip netns exec client ping 172.31.110.20 -c 3 || return 1 info "done..." return 0 } # nat_connect_v4 test # - client has 1500 byte MTU # - server has 1500 byte MTU # - use ICMP to ping in each direction # - only allow CT state stuff to pass through new in c -> s test_nat_connect_v4 () { which nc >/dev/null 2>/dev/null || return $ksft_skip sbx_add "test_nat_connect_v4" || return $? ovs_add_dp "test_nat_connect_v4" nat4 || return 1 info "create namespaces" for ns in client server; do ovs_add_netns_and_veths "test_nat_connect_v4" "nat4" "$ns" \ "${ns:0:1}0" "${ns:0:1}1" || return 1 done ip netns exec client ip addr add 172.31.110.10/24 dev c1 ip netns exec client ip link set c1 up ip netns exec server ip addr add 172.31.110.20/24 dev s1 ip netns exec server ip link set s1 up ip netns exec client ip route add default via 172.31.110.20 ovs_add_flow "test_nat_connect_v4" nat4 \ 'in_port(1),eth(),eth_type(0x0806),arp()' '2' || return 1 ovs_add_flow "test_nat_connect_v4" nat4 \ 'in_port(2),eth(),eth_type(0x0806),arp()' '1' || return 1 ovs_add_flow "test_nat_connect_v4" nat4 \ "ct_state(-trk),in_port(1),eth(),eth_type(0x0800),ipv4(dst=192.168.0.20)" \ "ct(commit,nat(dst=172.31.110.20)),recirc(0x1)" ovs_add_flow "test_nat_connect_v4" nat4 \ "ct_state(-trk),in_port(2),eth(),eth_type(0x0800),ipv4()" \ "ct(commit,nat),recirc(0x2)" ovs_add_flow "test_nat_connect_v4" nat4 \ "recirc_id(0x1),ct_state(+trk-inv),in_port(1),eth(),eth_type(0x0800),ipv4()" "2" ovs_add_flow "test_nat_connect_v4" nat4 \ "recirc_id(0x2),ct_state(+trk-inv),in_port(2),eth(),eth_type(0x0800),ipv4()" "1" # do a ping ovs_sbx "test_nat_connect_v4" ip netns exec client ping 192.168.0.20 -c 3 || return 1 # create an echo server in 'server' echo "server" | \ ovs_netns_spawn_daemon "test_nat_connect_v4" "server" \ nc -lvnp 4443 ovs_sbx "test_nat_connect_v4" ip netns exec client nc -i 1 -zv 192.168.0.20 4443 || return 1 # Now test in the other direction (should fail) echo "client" | \ ovs_netns_spawn_daemon "test_nat_connect_v4" "client" \ nc -lvnp 4443 ovs_sbx "test_nat_connect_v4" ip netns exec client nc -i 1 -zv 172.31.110.10 4443 if [ $? == 0 ]; then info "connect to client was successful" return 1 fi info "done..." return 0 } # nat_related_v4 test # - client->server ip packets go via SNAT # - client solicits ICMP destination unreachable packet from server # - undo NAT for ICMP reply and test dst ip has been updated test_nat_related_v4 () { which nc >/dev/null 2>/dev/null || return $ksft_skip sbx_add "test_nat_related_v4" || return $? ovs_add_dp "test_nat_related_v4" natrelated4 || return 1 info "create namespaces" for ns in client server; do ovs_add_netns_and_veths "test_nat_related_v4" "natrelated4" "$ns" \ "${ns:0:1}0" "${ns:0:1}1" || return 1 done ip netns exec client ip addr add 172.31.110.10/24 dev c1 ip netns exec client ip link set c1 up ip netns exec server ip addr add 172.31.110.20/24 dev s1 ip netns exec server ip link set s1 up ip netns exec server ip route add 192.168.0.20/32 via 172.31.110.10 # Allow ARP ovs_add_flow "test_nat_related_v4" natrelated4 \ "in_port(1),eth(),eth_type(0x0806),arp()" "2" || return 1 ovs_add_flow "test_nat_related_v4" natrelated4 \ "in_port(2),eth(),eth_type(0x0806),arp()" "1" || return 1 # Allow IP traffic from client->server, rewrite source IP with SNAT to 192.168.0.20 ovs_add_flow "test_nat_related_v4" natrelated4 \ "ct_state(-trk),in_port(1),eth(),eth_type(0x0800),ipv4(dst=172.31.110.20)" \ "ct(commit,nat(src=192.168.0.20)),recirc(0x1)" || return 1 ovs_add_flow "test_nat_related_v4" natrelated4 \ "recirc_id(0x1),ct_state(+trk-inv),in_port(1),eth(),eth_type(0x0800),ipv4()" \ "2" || return 1 # Allow related ICMP responses back from server and undo NAT to restore original IP # Drop any ICMP related packets where dst ip hasn't been restored back to original IP ovs_add_flow "test_nat_related_v4" natrelated4 \ "ct_state(-trk),in_port(2),eth(),eth_type(0x0800),ipv4()" \ "ct(commit,nat),recirc(0x2)" || return 1 ovs_add_flow "test_nat_related_v4" natrelated4 \ "recirc_id(0x2),ct_state(+rel+trk),in_port(2),eth(),eth_type(0x0800),ipv4(src=172.31.110.20,dst=172.31.110.10,proto=1),icmp()" \ "1" || return 1 ovs_add_flow "test_nat_related_v4" natrelated4 \ "recirc_id(0x2),ct_state(+rel+trk),in_port(2),eth(),eth_type(0x0800),ipv4(dst=192.168.0.20,proto=1),icmp()" \ "drop" || return 1 # Solicit destination unreachable response from server ovs_sbx "test_nat_related_v4" ip netns exec client \ bash -c "echo a | nc -u -w 1 172.31.110.20 10000" # Check to make sure no packets matched the drop rule with incorrect dst ip python3 "$ovs_base/ovs-dpctl.py" dump-flows natrelated4 \ | grep "drop" | grep "packets:0" >/dev/null || return 1 info "done..." return 0 } # netlink_validation # - Create a dp # - check no warning with "old version" simulation test_netlink_checks () { sbx_add "test_netlink_checks" || return 1 info "setting up new DP" ovs_add_dp "test_netlink_checks" nv0 || return 1 # now try again PRE_TEST=$(dmesg | grep -E "RIP: [0-9a-fA-Fx]+:ovs_dp_cmd_new\+") ovs_add_dp "test_netlink_checks" nv0 -V 0 || return 1 POST_TEST=$(dmesg | grep -E "RIP: [0-9a-fA-Fx]+:ovs_dp_cmd_new\+") if [ "$PRE_TEST" != "$POST_TEST" ]; then info "failed - gen warning" return 1 fi ovs_add_netns_and_veths "test_netlink_checks" nv0 left left0 l0 || \ return 1 ovs_add_netns_and_veths "test_netlink_checks" nv0 right right0 r0 || \ return 1 [ $(python3 $ovs_base/ovs-dpctl.py show nv0 | grep port | \ wc -l) == 3 ] || \ return 1 ovs_del_if "test_netlink_checks" nv0 right0 || return 1 [ $(python3 $ovs_base/ovs-dpctl.py show nv0 | grep port | \ wc -l) == 2 ] || \ return 1 info "Checking clone depth" ERR_MSG="Flow actions may not be safe on all matching packets" PRE_TEST=$(dmesg | grep -c "${ERR_MSG}") ovs_add_flow "test_netlink_checks" nv0 \ 'in_port(1),eth(),eth_type(0x800),ipv4()' \ 'clone(clone(clone(clone(clone(clone(clone(clone(clone(clone(clone(clone(clone(clone(clone(clone(clone(drop)))))))))))))))))' \ >/dev/null 2>&1 && return 1 POST_TEST=$(dmesg | grep -c "${ERR_MSG}") if [ "$PRE_TEST" == "$POST_TEST" ]; then info "failed - clone depth too large" return 1 fi PRE_TEST=$(dmesg | grep -c "${ERR_MSG}") ovs_add_flow "test_netlink_checks" nv0 \ 'in_port(1),eth(),eth_type(0x0806),arp()' 'drop(0),2' \ &> /dev/null && return 1 POST_TEST=$(dmesg | grep -c "${ERR_MSG}") if [ "$PRE_TEST" == "$POST_TEST" ]; then info "failed - error not generated" return 1 fi return 0 } test_upcall_interfaces() { sbx_add "test_upcall_interfaces" || return 1 info "setting up new DP" ovs_add_dp "test_upcall_interfaces" ui0 -V 2:1 || return 1 ovs_add_netns_and_veths "test_upcall_interfaces" ui0 upc left0 l0 \ 172.31.110.1/24 -u || return 1 ovs_wait grep -q "listening on upcall packet handler" ${ovs_dir}/left0.out info "sending arping" ip netns exec upc arping -I l0 172.31.110.20 -c 1 \ >$ovs_dir/arping.stdout 2>$ovs_dir/arping.stderr grep -E "MISS upcall\[0/yes\]: .*arp\(sip=172.31.110.1,tip=172.31.110.20,op=1,sha=" $ovs_dir/left0.out >/dev/null 2>&1 || return 1 return 0 } run_test() { ( tname="$1" tdesc="$2" if python3 ovs-dpctl.py -h 2>&1 | \ grep -E "Need to (install|upgrade) the python" >/dev/null 2>&1; then stdbuf -o0 printf "TEST: %-60s [PYLIB]\n" "${tdesc}" return $ksft_skip fi python3 ovs-dpctl.py show >/dev/null 2>&1 || \ echo "[DPCTL] show exception." if ! lsmod | grep openvswitch >/dev/null 2>&1; then stdbuf -o0 printf "TEST: %-60s [NOMOD]\n" "${tdesc}" return $ksft_skip fi printf "TEST: %-60s [START]\n" "${tname}" unset IFS eval test_${tname} ret=$? if [ $ret -eq 0 ]; then printf "TEST: %-60s [ OK ]\n" "${tdesc}" ovs_exit_sig rm -rf "$ovs_dir" elif [ $ret -eq 1 ]; then printf "TEST: %-60s [FAIL]\n" "${tdesc}" if [ "${PAUSE_ON_FAIL}" = "yes" ]; then echo echo "Pausing. Logs in $ovs_dir/. Hit enter to continue" read a fi ovs_exit_sig [ "${PAUSE_ON_FAIL}" = "yes" ] || rm -rf "$ovs_dir" exit 1 elif [ $ret -eq $ksft_skip ]; then printf "TEST: %-60s [SKIP]\n" "${tdesc}" elif [ $ret -eq 2 ]; then rm -rf test_${tname} run_test "$1" "$2" fi return $ret ) ret=$? case $ret in 0) [ $all_skipped = true ] && [ $exitcode=$ksft_skip ] && exitcode=0 all_skipped=false ;; $ksft_skip) [ $all_skipped = true ] && exitcode=$ksft_skip ;; *) all_skipped=false exitcode=1 ;; esac return $ret } exitcode=0 desc=0 all_skipped=true while getopts :pvt o do case $o in p) PAUSE_ON_FAIL=yes;; v) VERBOSE=1;; t) if which tcpdump > /dev/null 2>&1; then TRACING=1 else echo "=== tcpdump not available, tracing disabled" fi ;; *) usage;; esac done shift $(($OPTIND-1)) IFS=" " for arg do # Check first that all requested tests are available before running any command -v > /dev/null "test_${arg}" || { echo "=== Test ${arg} not found"; usage; } done name="" desc="" for t in ${tests}; do [ "${name}" = "" ] && name="${t}" && continue [ "${desc}" = "" ] && desc="${t}" run_this=1 for arg do [ "${arg}" != "${arg#--*}" ] && continue [ "${arg}" = "${name}" ] && run_this=1 && break run_this=0 done if [ $run_this -eq 1 ]; then run_test "${name}" "${desc}" fi name="" desc="" done exit ${exitcode}