Commit 3cb6a338 authored by Paolo Abeni's avatar Paolo Abeni

Merge branch 'selftests-openvswitch-add-flow-programming-cases'

Aaron Conole says:

====================
selftests: openvswitch: add flow programming cases

The openvswitch selftests currently contain a few cases for managing the
datapath, which includes creating datapath instances, adding interfaces,
and doing some basic feature / upcall tests.  This is useful to validate
the control path.

Add the ability to program some of the more common flows with actions. This
can be improved overtime to include regression testing, etc.
====================

Link: https://lore.kernel.org/r/20230801212226.909249-1-aconole@redhat.comSigned-off-by: default avatarPaolo Abeni <pabeni@redhat.com>
parents ce650a16 60f10077
...@@ -11,6 +11,10 @@ VERBOSE=0 ...@@ -11,6 +11,10 @@ VERBOSE=0
TRACING=0 TRACING=0
tests=" 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
netlink_checks ovsnl: validate netlink attrs and settings netlink_checks ovsnl: validate netlink attrs and settings
upcall_interfaces ovs: test the upcall interfaces" upcall_interfaces ovs: test the upcall interfaces"
...@@ -127,6 +131,16 @@ ovs_add_netns_and_veths () { ...@@ -127,6 +131,16 @@ ovs_add_netns_and_veths () {
return 0 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
echo "Flow [ $3 : $4 ] failed" >> ${ovs_dir}/debug.log
return 1
fi
return 0
}
usage() { usage() {
echo echo
echo "$0 [OPTIONS] [TEST]..." echo "$0 [OPTIONS] [TEST]..."
...@@ -141,6 +155,215 @@ usage() { ...@@ -141,6 +155,215 @@ usage() {
exit 1 exit 1
} }
# 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
}
# netlink_validation # netlink_validation
# - Create a dp # - Create a dp
# - check no warning with "old version" simulation # - check no warning with "old version" simulation
......
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