path: root/tools/testing/selftests/drivers/net/mlxsw/rtnetlink.sh

#!/bin/bash
# SPDX-License-Identifier: GPL-2.0
#
# Test various interface configuration scenarios. Observe that configurations
# deemed valid by mlxsw succeed, invalid configurations fail and that no traces
# are produced. To prevent the test from passing in case traces are produced,
# the user can set the 'kernel.panic_on_warn' and 'kernel.panic_on_oops'
# sysctls in its environment.

lib_dir=$(dirname $0)/../../../net/forwarding

ALL_TESTS="
	rif_set_addr_test
	rif_vrf_set_addr_test
	rif_inherit_bridge_addr_test
	rif_non_inherit_bridge_addr_test
	vlan_interface_deletion_test
	bridge_deletion_test
	bridge_vlan_flags_test
	vlan_1_test
	lag_bridge_upper_test
	duplicate_vlans_test
	vlan_rif_refcount_test
	subport_rif_refcount_test
	vlan_dev_deletion_test
	lag_unlink_slaves_test
	lag_dev_deletion_test
	vlan_interface_uppers_test
	bridge_extern_learn_test
	neigh_offload_test
	devlink_reload_test
"
NUM_NETIFS=2
source $lib_dir/lib.sh
source $lib_dir/devlink_lib.sh

setup_prepare()
{
	swp1=${NETIFS[p1]}
	swp2=${NETIFS[p2]}

	ip link set dev $swp1 up
	ip link set dev $swp2 up
}

cleanup()
{
	pre_cleanup

	ip link set dev $swp2 down
	ip link set dev $swp1 down
}

rif_set_addr_test()
{
	local swp1_mac=$(mac_get $swp1)
	local swp2_mac=$(mac_get $swp2)

	RET=0

	# $swp1 and $swp2 likely got their IPv6 local addresses already, but
	# here we need to test the transition to RIF.
	ip addr flush dev $swp1
	ip addr flush dev $swp2
	sleep .1

	ip addr add dev $swp1 192.0.2.1/28
	check_err $?

	ip link set dev $swp1 addr 00:11:22:33:44:55
	check_err $?

	# IP address enablement should be rejected if the MAC address prefix
	# doesn't match other RIFs.
	ip addr add dev $swp2 192.0.2.2/28 &>/dev/null
	check_fail $? "IP address addition passed for a device with a wrong MAC"
	ip addr add dev $swp2 192.0.2.2/28 2>&1 >/dev/null \
	    | grep -q mlxsw_spectrum
	check_err $? "no extack for IP address addition"

	ip link set dev $swp2 addr 00:11:22:33:44:66
	check_err $?
	ip addr add dev $swp2 192.0.2.2/28 &>/dev/null
	check_err $?

	# Change of MAC address of a RIF should be forbidden if the new MAC
	# doesn't share the prefix with other MAC addresses.
	ip link set dev $swp2 addr 00:11:22:33:00:66 &>/dev/null
	check_fail $? "change of MAC address passed for a wrong MAC"
	ip link set dev $swp2 addr 00:11:22:33:00:66 2>&1 >/dev/null \
	    | grep -q mlxsw_spectrum
	check_err $? "no extack for MAC address change"

	log_test "RIF - bad MAC change"

	ip addr del dev $swp2 192.0.2.2/28
	ip addr del dev $swp1 192.0.2.1/28

	ip link set dev $swp2 addr $swp2_mac
	ip link set dev $swp1 addr $swp1_mac
}

rif_vrf_set_addr_test()
{
	# Test that it is possible to set an IP address on a VRF upper despite
	# its random MAC address.
	RET=0

	ip link add name vrf-test type vrf table 10
	ip link set dev $swp1 master vrf-test

	ip -4 address add 192.0.2.1/24 dev vrf-test
	check_err $? "failed to set IPv4 address on VRF"
	ip -6 address add 2001:db8:1::1/64 dev vrf-test
	check_err $? "failed to set IPv6 address on VRF"

	log_test "RIF - setting IP address on VRF"

	ip link del dev vrf-test
}

rif_inherit_bridge_addr_test()
{
	RET=0

	# Create first RIF
	ip addr add dev $swp1 192.0.2.1/28
	check_err $?

	# Create a FID RIF
	ip link add name br1 up type bridge vlan_filtering 0
	ip link set dev $swp2 master br1
	ip addr add dev br1 192.0.2.17/28
	check_err $?

	# Prepare a device with a low MAC address
	ip link add name d up type dummy
	ip link set dev d addr 00:11:22:33:44:55

	# Attach the device to br1. That prompts bridge address change, which
	# should be vetoed, thus preventing the attachment.
	ip link set dev d master br1 &>/dev/null
	check_fail $? "Device with low MAC was permitted to attach a bridge with RIF"
	ip link set dev d master br1 2>&1 >/dev/null \
	    | grep -q mlxsw_spectrum
	check_err $? "no extack for bridge attach rejection"

	ip link set dev $swp2 addr 00:11:22:33:44:55 &>/dev/null
	check_fail $? "Changing swp2's MAC address permitted"
	ip link set dev $swp2 addr 00:11:22:33:44:55 2>&1 >/dev/null \
	    | grep -q mlxsw_spectrum
	check_err $? "no extack for bridge port MAC address change rejection"

	log_test "RIF - attach port with bad MAC to bridge"

	ip link del dev d
	ip link del dev br1
	ip addr del dev $swp1 192.0.2.1/28
}

rif_non_inherit_bridge_addr_test()
{
	local swp2_mac=$(mac_get $swp2)

	RET=0

	# Create first RIF
	ip addr add dev $swp1 192.0.2.1/28
	check_err $?

	# Create a FID RIF
	ip link add name br1 up type bridge vlan_filtering 0
	ip link set dev br1 addr $swp2_mac
	ip link set dev $swp2 master br1
	ip addr add dev br1 192.0.2.17/28
	check_err $?

	# Prepare a device with a low MAC address
	ip link add name d up type dummy
	ip link set dev d addr 00:11:22:33:44:55

	# Attach the device to br1. Since the bridge address was set, it should
	# work.
	ip link set dev d master br1 &>/dev/null
	check_err $? "Could not attach a device with low MAC to a bridge with RIF"

	# Port MAC address change should be allowed for a bridge with set MAC.
	ip link set dev $swp2 addr 00:11:22:33:44:55
	check_err $? "Changing swp2's MAC address not permitted"

	log_test "RIF - attach port with bad MAC to bridge with set MAC"

	ip link set dev $swp2 addr $swp2_mac
	ip link del dev d
	ip link del dev br1
	ip addr del dev $swp1 192.0.2.1/28
}

vlan_interface_deletion_test()
{
	# Test that when a VLAN interface is deleted, its associated router
	# interface (RIF) is correctly deleted and not leaked. See commit
	# c360867ec46a ("mlxsw: spectrum: Delete RIF when VLAN device is
	# removed") for more details
	RET=0

	ip link add name br0 type bridge vlan_filtering 1
	ip link set dev $swp1 master br0

	ip link add link br0 name br0.10 type vlan id 10
	ip -6 address add 2001:db8:1::1/64 dev br0.10
	ip link del dev br0.10

	# If we leaked the previous RIF, then this should produce a trace
	ip link add link br0 name br0.20 type vlan id 20
	ip -6 address add 2001:db8:1::1/64 dev br0.20
	ip link del dev br0.20

	log_test "vlan interface deletion"

	ip link del dev br0
}

bridge_deletion_test()
{
	# Test that when a bridge with VLAN interfaces is deleted, we correctly
	# delete the associated RIFs. See commit 602b74eda813 ("mlxsw:
	# spectrum_switchdev: Do not leak RIFs when removing bridge") for more
	# details
	RET=0

	ip link add name br0 type bridge vlan_filtering 1
	ip link set dev $swp1 master br0
	ip -6 address add 2001:db8::1/64 dev br0

	ip link add link br0 name br0.10 type vlan id 10
	ip -6 address add 2001:db8:1::1/64 dev br0.10

	ip link add link br0 name br0.20 type vlan id 20
	ip -6 address add 2001:db8:2::1/64 dev br0.20

	ip link del dev br0

	# If we leaked previous RIFs, then this should produce a trace
	ip -6 address add 2001:db8:1::1/64 dev $swp1
	ip -6 address del 2001:db8:1::1/64 dev $swp1

	log_test "bridge deletion"
}

bridge_vlan_flags_test()
{
	# Test that when bridge VLAN flags are toggled, we do not take
	# unnecessary references on related structs. See commit 9e25826ffc94
	# ("mlxsw: spectrum_switchdev: Fix port_vlan refcounting") for more
	# details
	RET=0

	ip link add name br0 type bridge vlan_filtering 1
	ip link set dev $swp1 master br0

	bridge vlan add vid 10 dev $swp1 pvid untagged
	bridge vlan add vid 10 dev $swp1 untagged
	bridge vlan add vid 10 dev $swp1 pvid
	bridge vlan add vid 10 dev $swp1
	ip link del dev br0

	# If we did not handle references correctly, then this should produce a
	# trace
	devlink dev reload "$DEVLINK_DEV"

	# Allow netdevices to be re-created following the reload
	sleep 20

	log_test "bridge vlan flags"
}

vlan_1_test()
{
	# Test that VLAN 1 can be configured over mlxsw ports. In the past it
	# was used internally for untagged traffic. See commit 47bf9df2e820
	# ("mlxsw: spectrum: Forbid creation of VLAN 1 over port/LAG") for more
	# details
	RET=0

	ip link add link $swp1 name $swp1.1 type vlan id 1
	check_err $? "did not manage to create vlan 1 when should"

	log_test "vlan 1"

	ip link del dev $swp1.1
}

lag_bridge_upper_test()
{
	# Test that ports cannot be enslaved to LAG devices that have uppers
	# and that failure is handled gracefully. See commit b3529af6bb0d
	# ("spectrum: Reference count VLAN entries") for more details
	RET=0

	ip link add name bond1 type bond mode 802.3ad

	ip link add name br0 type bridge vlan_filtering 1
	ip link set dev bond1 master br0

	ip link set dev $swp1 down
	ip link set dev $swp1 master bond1 &> /dev/null
	check_fail $? "managed to enslave port to lag when should not"

	# This might generate a trace, if we did not handle the failure
	# correctly
	ip -6 address add 2001:db8:1::1/64 dev $swp1
	ip -6 address del 2001:db8:1::1/64 dev $swp1

	log_test "lag with bridge upper"

	ip link del dev br0
	ip link del dev bond1
}

duplicate_vlans_test()
{
	# Test that on a given port a VLAN is only used once. Either as VLAN
	# in a VLAN-aware bridge or as a VLAN device
	RET=0

	ip link add name br0 type bridge vlan_filtering 1
	ip link set dev $swp1 master br0
	bridge vlan add vid 10 dev $swp1

	ip link add link $swp1 name $swp1.10 type vlan id 10 &> /dev/null
	check_fail $? "managed to create vlan device when should not"

	bridge vlan del vid 10 dev $swp1
	ip link add link $swp1 name $swp1.10 type vlan id 10
	check_err $? "did not manage to create vlan device when should"
	bridge vlan add vid 10 dev $swp1 &> /dev/null
	check_fail $? "managed to add bridge vlan when should not"

	log_test "duplicate vlans"

	ip link del dev $swp1.10
	ip link del dev br0
}

vlan_rif_refcount_test()
{
	# Test that RIFs representing VLAN interfaces are not affected from
	# ports member in the VLAN. We use the offload indication on routes
	# configured on the RIF to understand if it was created / destroyed
	RET=0

	ip link add name br0 type bridge vlan_filtering 1
	ip link set dev $swp1 master br0

	ip link set dev $swp1 up
	ip link set dev br0 up

	ip link add link br0 name br0.10 up type vlan id 10
	ip -6 address add 2001:db8:1::1/64 dev br0.10

	ip -6 route get fibmatch 2001:db8:1::2 dev br0.10 | grep -q offload
	check_err $? "vlan rif was not created before adding port to vlan"

	bridge vlan add vid 10 dev $swp1
	ip -6 route get fibmatch 2001:db8:1::2 dev br0.10 | grep -q offload
	check_err $? "vlan rif was destroyed after adding port to vlan"

	bridge vlan del vid 10 dev $swp1
	ip -6 route get fibmatch 2001:db8:1::2 dev br0.10 | grep -q offload
	check_err $? "vlan rif was destroyed after removing port from vlan"

	ip link set dev $swp1 nomaster
	ip -6 route get fibmatch 2001:db8:1::2 dev br0.10 | grep -q offload
	check_fail $? "vlan rif was not destroyed after unlinking port from bridge"

	log_test "vlan rif refcount"

	ip link del dev br0.10
	ip link set dev $swp1 down
	ip link del dev br0
}

subport_rif_refcount_test()
{
	# Test that RIFs representing upper devices of physical ports are
	# reference counted correctly and destroyed when should. We use the
	# offload indication on routes configured on the RIF to understand if
	# it was created / destroyed
	RET=0

	ip link add name bond1 type bond mode 802.3ad
	ip link set dev $swp1 down
	ip link set dev $swp2 down
	ip link set dev $swp1 master bond1
	ip link set dev $swp2 master bond1

	ip link set dev bond1 up
	ip link add link bond1 name bond1.10 up type vlan id 10
	ip -6 address add 2001:db8:1::1/64 dev bond1
	ip -6 address add 2001:db8:2::1/64 dev bond1.10

	ip -6 route get fibmatch 2001:db8:1::2 dev bond1 | grep -q offload
	check_err $? "subport rif was not created on lag device"
	ip -6 route get fibmatch 2001:db8:2::2 dev bond1.10 | grep -q offload
	check_err $? "subport rif was not created on vlan device"

	ip link set dev $swp1 nomaster
	ip -6 route get fibmatch 2001:db8:1::2 dev bond1 | grep -q offload
	check_err $? "subport rif of lag device was destroyed when should not"
	ip -6 route get fibmatch 2001:db8:2::2 dev bond1.10 | grep -q offload
	check_err $? "subport rif of vlan device was destroyed when should not"

	ip link set dev $swp2 nomaster
	ip -6 route get fibmatch 2001:db8:1::2 dev bond1 | grep -q offload
	check_fail $? "subport rif of lag device was not destroyed when should"
	ip -6 route get fibmatch 2001:db8:2::2 dev bond1.10 | grep -q offload
	check_fail $? "subport rif of vlan device was not destroyed when should"

	log_test "subport rif refcount"

	ip link del dev bond1.10
	ip link del dev bond1
}

vlan_dev_deletion_test()
{
	# Test that VLAN devices are correctly deleted / unlinked when enslaved
	# to bridge
	RET=0

	ip link add name br10 type bridge
	ip link add name br20 type bridge
	ip link add name br30 type bridge
	ip link add link $swp1 name $swp1.10 type vlan id 10
	ip link add link $swp1 name $swp1.20 type vlan id 20
	ip link add link $swp1 name $swp1.30 type vlan id 30
	ip link set dev $swp1.10 master br10
	ip link set dev $swp1.20 master br20
	ip link set dev $swp1.30 master br30

	# If we did not handle the situation correctly, then these operations
	# might produce a trace
	ip link set dev $swp1.30 nomaster
	ip link del dev $swp1.20
	# Deletion via ioctl uses different code paths from netlink
	vconfig rem $swp1.10 &> /dev/null

	log_test "vlan device deletion"

	ip link del dev $swp1.30
	ip link del dev br30
	ip link del dev br20
	ip link del dev br10
}

lag_create()
{
	ip link add name bond1 type bond mode 802.3ad
	ip link set dev $swp1 down
	ip link set dev $swp2 down
	ip link set dev $swp1 master bond1
	ip link set dev $swp2 master bond1

	ip link add link bond1 name bond1.10 type vlan id 10
	ip link add link bond1 name bond1.20 type vlan id 20

	ip link add name br0 type bridge vlan_filtering 1
	ip link set dev bond1 master br0

	ip link add name br10 type bridge
	ip link set dev bond1.10 master br10

	ip link add name br20 type bridge
	ip link set dev bond1.20 master br20
}

lag_unlink_slaves_test()
{
	# Test that ports are correctly unlinked from their LAG master, when
	# the LAG and its VLAN uppers are enslaved to bridges
	RET=0

	lag_create

	ip link set dev $swp1 nomaster
	check_err $? "lag slave $swp1 was not unlinked from master"
	ip link set dev $swp2 nomaster
	check_err $? "lag slave $swp2 was not unlinked from master"

	# Try to configure corresponding VLANs as router interfaces
	ip -6 address add 2001:db8:1::1/64 dev $swp1
	check_err $? "failed to configure ip address on $swp1"

	ip link add link $swp1 name $swp1.10 type vlan id 10
	ip -6 address add 2001:db8:10::1/64 dev $swp1.10
	check_err $? "failed to configure ip address on $swp1.10"

	ip link add link $swp1 name $swp1.20 type vlan id 20
	ip -6 address add 2001:db8:20::1/64 dev $swp1.20
	check_err $? "failed to configure ip address on $swp1.20"

	log_test "lag slaves unlinking"

	ip link del dev $swp1.20
	ip link del dev $swp1.10
	ip address flush dev $swp1

	ip link del dev br20
	ip link del dev br10
	ip link del dev br0
	ip link del dev bond1
}

lag_dev_deletion_test()
{
	# Test that LAG device is correctly deleted, when the LAG and its VLAN
	# uppers are enslaved to bridges
	RET=0

	lag_create

	ip link del dev bond1

	log_test "lag device deletion"

	ip link del dev br20
	ip link del dev br10
	ip link del dev br0
}

vlan_interface_uppers_test()
{
	# Test that uppers of a VLAN interface are correctly sanitized
	RET=0

	ip link add name br0 type bridge vlan_filtering 1
	ip link set dev $swp1 master br0

	ip link add link br0 name br0.10 type vlan id 10
	ip link add link br0.10 name macvlan0 \
		type macvlan mode private &> /dev/null
	check_fail $? "managed to create a macvlan when should not"

	ip -6 address add 2001:db8:1::1/64 dev br0.10
	ip link add link br0.10 name macvlan0 type macvlan mode private
	check_err $? "did not manage to create a macvlan when should"

	ip link del dev macvlan0

	ip link add name vrf-test type vrf table 10
	ip link set dev br0.10 master vrf-test
	check_err $? "did not manage to enslave vlan interface to vrf"
	ip link del dev vrf-test

	ip link add name br-test type bridge
	ip link set dev br0.10 master br-test &> /dev/null
	check_fail $? "managed to enslave vlan interface to bridge when should not"
	ip link del dev br-test

	log_test "vlan interface uppers"

	ip link del dev br0
}

bridge_extern_learn_test()
{
	# Test that externally learned entries added from user space are
	# marked as offloaded
	RET=0

	ip link add name br0 type bridge
	ip link set dev $swp1 master br0

	bridge fdb add de:ad:be:ef:13:37 dev $swp1 master extern_learn

	bridge fdb show brport $swp1 | grep de:ad:be:ef:13:37 | grep -q offload
	check_err $? "fdb entry not marked as offloaded when should"

	log_test "externally learned fdb entry"

	ip link del dev br0
}

neigh_offload_test()
{
	# Test that IPv4 and IPv6 neighbour entries are marked as offloaded
	RET=0

	ip -4 address add 192.0.2.1/24 dev $swp1
	ip -6 address add 2001:db8:1::1/64 dev $swp1

	ip -4 neigh add 192.0.2.2 lladdr de:ad:be:ef:13:37 nud perm dev $swp1
	ip -6 neigh add 2001:db8:1::2 lladdr de:ad:be:ef:13:37 nud perm \
		dev $swp1

	ip -4 neigh show dev $swp1 | grep 192.0.2.2 | grep -q offload
	check_err $? "ipv4 neigh entry not marked as offloaded when should"
	ip -6 neigh show dev $swp1 | grep 2001:db8:1::2 | grep -q offload
	check_err $? "ipv6 neigh entry not marked as offloaded when should"

	log_test "neighbour offload indication"

	ip -6 neigh del 2001:db8:1::2 dev $swp1
	ip -4 neigh del 192.0.2.2 dev $swp1
	ip -6 address del 2001:db8:1::1/64 dev $swp1
	ip -4 address del 192.0.2.1/24 dev $swp1
}

devlink_reload_test()
{
	# Test that after executing all the above configuration tests, a
	# devlink reload can be performed without errors
	RET=0

	devlink dev reload "$DEVLINK_DEV"
	check_err $? "devlink reload failed"

	log_test "devlink reload - last test"

	sleep 20
}

trap cleanup EXIT

setup_prepare
setup_wait

tests_run

exit $EXIT_STATUS