linux-zen-server/tools/testing/selftests/drivers/net/mlxsw/vxlan_flooding.sh

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2023-08-30 17:53:23 +02:00
#!/bin/bash
# SPDX-License-Identifier: GPL-2.0
#
# Test VxLAN flooding. The device stores flood records in a singly linked list
# where each record stores up to three IPv4 addresses of remote VTEPs. The test
# verifies that packets are correctly flooded in various cases such as deletion
# of a record in the middle of the list.
#
# +--------------------+
# | H1 (vrf) |
# | + $h1 |
# | | 203.0.113.1/24|
# +----|---------------+
# |
# +----|----------------------------------------------------------------------+
# | SW | |
# | +--|--------------------------------------------------------------------+ |
# | | + $swp1 BR0 (802.1d) | |
# | | | |
# | | + vxlan0 (vxlan) | |
# | | local 198.51.100.1 | |
# | | remote 198.51.100.{2..13} | |
# | | id 10 dstport 4789 | |
# | +-----------------------------------------------------------------------+ |
# | |
# | 198.51.100.0/24 via 192.0.2.2 |
# | |
# | + $rp1 |
# | | 192.0.2.1/24 |
# +----|----------------------------------------------------------------------+
# |
# +----|--------------------------------------------------------+
# | | R2 (vrf) |
# | + $rp2 |
# | 192.0.2.2/24 |
# | |
# +-------------------------------------------------------------+
lib_dir=$(dirname $0)/../../../net/forwarding
ALL_TESTS="flooding_test"
NUM_NETIFS=4
source $lib_dir/tc_common.sh
source $lib_dir/lib.sh
h1_create()
{
simple_if_init $h1 203.0.113.1/24
}
h1_destroy()
{
simple_if_fini $h1 203.0.113.1/24
}
switch_create()
{
# Make sure the bridge uses the MAC address of the local port and
# not that of the VxLAN's device
ip link add dev br0 type bridge mcast_snooping 0
ip link set dev br0 address $(mac_get $swp1)
ip link add name vxlan0 type vxlan id 10 nolearning noudpcsum \
ttl 20 tos inherit local 198.51.100.1 dstport 4789
ip address add 198.51.100.1/32 dev lo
ip link set dev $swp1 master br0
ip link set dev vxlan0 master br0
ip link set dev br0 up
ip link set dev $swp1 up
ip link set dev vxlan0 up
}
switch_destroy()
{
ip link set dev vxlan0 down
ip link set dev $swp1 down
ip link set dev br0 down
ip link set dev vxlan0 nomaster
ip link set dev $swp1 nomaster
ip address del 198.51.100.1/32 dev lo
ip link del dev vxlan0
ip link del dev br0
}
router1_create()
{
# This router is in the default VRF, where the VxLAN device is
# performing the L3 lookup
ip link set dev $rp1 up
ip address add 192.0.2.1/24 dev $rp1
ip route add 198.51.100.0/24 via 192.0.2.2
}
router1_destroy()
{
ip route del 198.51.100.0/24 via 192.0.2.2
ip address del 192.0.2.1/24 dev $rp1
ip link set dev $rp1 down
}
router2_create()
{
# This router is not in the default VRF, so use simple_if_init()
simple_if_init $rp2 192.0.2.2/24
}
router2_destroy()
{
simple_if_fini $rp2 192.0.2.2/24
}
setup_prepare()
{
h1=${NETIFS[p1]}
swp1=${NETIFS[p2]}
rp1=${NETIFS[p3]}
rp2=${NETIFS[p4]}
vrf_prepare
h1_create
switch_create
router1_create
router2_create
forwarding_enable
}
cleanup()
{
pre_cleanup
forwarding_restore
router2_destroy
router1_destroy
switch_destroy
h1_destroy
vrf_cleanup
}
flooding_remotes_add()
{
local num_remotes=$1
local lsb
local i
for i in $(eval echo {1..$num_remotes}); do
lsb=$((i + 1))
bridge fdb append 00:00:00:00:00:00 dev vxlan0 self \
dst 198.51.100.$lsb
done
}
flooding_filters_add()
{
local num_remotes=$1
local lsb
local i
# Prevent unwanted packets from entering the bridge and interfering
# with the test.
tc qdisc add dev br0 clsact
tc filter add dev br0 egress protocol all pref 1 handle 1 \
matchall skip_hw action drop
tc qdisc add dev $h1 clsact
tc filter add dev $h1 egress protocol all pref 1 handle 1 \
flower skip_hw dst_mac de:ad:be:ef:13:37 action pass
tc filter add dev $h1 egress protocol all pref 2 handle 2 \
matchall skip_hw action drop
tc qdisc add dev $rp2 clsact
for i in $(eval echo {1..$num_remotes}); do
lsb=$((i + 1))
tc filter add dev $rp2 ingress protocol ip pref $i handle $i \
flower ip_proto udp dst_ip 198.51.100.$lsb \
dst_port 4789 skip_sw action drop
done
}
flooding_filters_del()
{
local num_remotes=$1
local i
for i in $(eval echo {1..$num_remotes}); do
tc filter del dev $rp2 ingress protocol ip pref $i \
handle $i flower
done
tc qdisc del dev $rp2 clsact
tc filter del dev $h1 egress protocol all pref 2 handle 2 matchall
tc filter del dev $h1 egress protocol all pref 1 handle 1 flower
tc qdisc del dev $h1 clsact
tc filter del dev br0 egress protocol all pref 1 handle 1 matchall
tc qdisc del dev br0 clsact
}
flooding_check_packets()
{
local packets=("$@")
local num_remotes=${#packets[@]}
local i
for i in $(eval echo {1..$num_remotes}); do
tc_check_packets "dev $rp2 ingress" $i ${packets[i - 1]}
check_err $? "remote $i - did not get expected number of packets"
done
}
flooding_test()
{
# Use 12 remote VTEPs that will be stored in 4 records. The array
# 'packets' will store how many packets are expected to be received
# by each remote VTEP at each stage of the test
declare -a packets=(1 1 1 1 1 1 1 1 1 1 1 1)
local num_remotes=12
RET=0
# Add FDB entries for remote VTEPs and corresponding tc filters on the
# ingress of the nexthop router. These filters will count how many
# packets were flooded to each remote VTEP
flooding_remotes_add $num_remotes
flooding_filters_add $num_remotes
# Send one packet and make sure it is flooded to all the remote VTEPs
$MZ $h1 -q -p 64 -b de:ad:be:ef:13:37 -t ip -c 1
flooding_check_packets "${packets[@]}"
log_test "flood after 1 packet"
# Delete the third record which corresponds to VTEPs with LSB 8..10
# and check that packet is flooded correctly when we remove a record
# from the middle of the list
RET=0
packets=(2 2 2 2 2 2 1 1 1 2 2 2)
bridge fdb del 00:00:00:00:00:00 dev vxlan0 self dst 198.51.100.8
bridge fdb del 00:00:00:00:00:00 dev vxlan0 self dst 198.51.100.9
bridge fdb del 00:00:00:00:00:00 dev vxlan0 self dst 198.51.100.10
$MZ $h1 -q -p 64 -b de:ad:be:ef:13:37 -t ip -c 1
flooding_check_packets "${packets[@]}"
log_test "flood after 2 packets"
# Delete the first record and make sure the packet is flooded correctly
RET=0
packets=(2 2 2 3 3 3 1 1 1 3 3 3)
bridge fdb del 00:00:00:00:00:00 dev vxlan0 self dst 198.51.100.2
bridge fdb del 00:00:00:00:00:00 dev vxlan0 self dst 198.51.100.3
bridge fdb del 00:00:00:00:00:00 dev vxlan0 self dst 198.51.100.4
$MZ $h1 -q -p 64 -b de:ad:be:ef:13:37 -t ip -c 1
flooding_check_packets "${packets[@]}"
log_test "flood after 3 packets"
# Delete the last record and make sure the packet is flooded correctly
RET=0
packets=(2 2 2 4 4 4 1 1 1 3 3 3)
bridge fdb del 00:00:00:00:00:00 dev vxlan0 self dst 198.51.100.11
bridge fdb del 00:00:00:00:00:00 dev vxlan0 self dst 198.51.100.12
bridge fdb del 00:00:00:00:00:00 dev vxlan0 self dst 198.51.100.13
$MZ $h1 -q -p 64 -b de:ad:be:ef:13:37 -t ip -c 1
flooding_check_packets "${packets[@]}"
log_test "flood after 4 packets"
# Delete the last record, one entry at a time and make sure single
# entries are correctly removed
RET=0
packets=(2 2 2 4 5 5 1 1 1 3 3 3)
bridge fdb del 00:00:00:00:00:00 dev vxlan0 self dst 198.51.100.5
$MZ $h1 -q -p 64 -b de:ad:be:ef:13:37 -t ip -c 1
flooding_check_packets "${packets[@]}"
log_test "flood after 5 packets"
RET=0
packets=(2 2 2 4 5 6 1 1 1 3 3 3)
bridge fdb del 00:00:00:00:00:00 dev vxlan0 self dst 198.51.100.6
$MZ $h1 -q -p 64 -b de:ad:be:ef:13:37 -t ip -c 1
flooding_check_packets "${packets[@]}"
log_test "flood after 6 packets"
RET=0
packets=(2 2 2 4 5 6 1 1 1 3 3 3)
bridge fdb del 00:00:00:00:00:00 dev vxlan0 self dst 198.51.100.7
$MZ $h1 -q -p 64 -b de:ad:be:ef:13:37 -t ip -c 1
flooding_check_packets "${packets[@]}"
log_test "flood after 7 packets"
flooding_filters_del $num_remotes
}
trap cleanup EXIT
setup_prepare
setup_wait
tests_run
exit $EXIT_STATUS