tools/testing/selftests/net/forwarding/sch_tbf_core.sh - linux - Git at Google

 # SPDX-License-Identifier: GPL-2.0

 # This test sends a stream of traffic from H1 through a switch, to H2. On the
 # egress port from the switch ($swp2), a shaper is installed. The test verifies
 # that the rates on the port match the configured shaper.
 #
 # In order to test per-class shaping, $swp2 actually contains TBF under PRIO or
 # ETS, with two different configurations. Traffic is prioritized using 802.1p.
 #
 # +-------------------------------------------+
 # | H1                                        |
 # |     + $h1.10                  $h1.11 +    |
 # |     | 192.0.2.1/28     192.0.2.17/28 |    |
 # |     |                                |    |
 # |     \______________    _____________/     |
 # |                    \ /                    |
 # |                     + $h1                 |
 # +---------------------|---------------------+
 #                       |
 # +---------------------|---------------------+
 # | SW                  + $swp1               |
 # |     _______________/ \_______________     |
 # |    /                                 \    |
 # |  +-|--------------+   +--------------|-+  |
 # |  | + $swp1.10     |   |     $swp1.11 + |  |
 # |  |                |   |                |  |
 # |  |     BR10       |   |       BR11     |  |
 # |  |                |   |                |  |
 # |  | + $swp2.10     |   |     $swp2.11 + |  |
 # |  +-|--------------+   +--------------|-+  |
 # |    \_______________   ______________/     |
 # |                    \ /                    |
 # |                     + $swp2               |
 # +---------------------|---------------------+
 #                       |
 # +---------------------|---------------------+
 # | H2                  + $h2                 |
 # |      ______________/ \______________      |
 # |     /                               \     |
 # |     |                               |     |
 # |     + $h2.10                 $h2.11 +     |
 # |       192.0.2.2/28    192.0.2.18/28       |
 # +-------------------------------------------+

 NUM_NETIFS=4
 CHECK_TC="yes"
 source $lib_dir/lib.sh

 ipaddr()
 {
 	local host=$1; shift
 	local vlan=$1; shift

 	echo 192.0.2.$((16 * (vlan - 10) + host))
 }

 host_create()
 {
 	local dev=$1; shift
 	local host=$1; shift

 	simple_if_init $dev
 	mtu_set $dev 10000

 	vlan_create $dev 10 v$dev $(ipaddr $host 10)/28
 	ip link set dev $dev.10 type vlan egress 0:0

 	vlan_create $dev 11 v$dev $(ipaddr $host 11)/28
 	ip link set dev $dev.11 type vlan egress 0:1
 }

 host_destroy()
 {
 	local dev=$1; shift

 	vlan_destroy $dev 11
 	vlan_destroy $dev 10
 	mtu_restore $dev
 	simple_if_fini $dev
 }

 h1_create()
 {
 	host_create $h1 1
 }

 h1_destroy()
 {
 	host_destroy $h1
 }

 h2_create()
 {
 	host_create $h2 2

 	tc qdisc add dev $h2 clsact
 	tc filter add dev $h2 ingress pref 1010 prot 802.1q \
 	   flower $TCFLAGS vlan_id 10 action pass
 	tc filter add dev $h2 ingress pref 1011 prot 802.1q \
 	   flower $TCFLAGS vlan_id 11 action pass
 }

 h2_destroy()
 {
 	tc qdisc del dev $h2 clsact
 	host_destroy $h2
 }

 switch_create()
 {
 	local intf
 	local vlan

 	ip link add dev br10 type bridge
 	ip link add dev br11 type bridge

 	for intf in $swp1 $swp2; do
 		ip link set dev $intf up
 		mtu_set $intf 10000

 		for vlan in 10 11; do
 			vlan_create $intf $vlan
 			ip link set dev $intf.$vlan master br$vlan
 			ip link set dev $intf.$vlan up
 		done
 	done

 	for vlan in 10 11; do
 		ip link set dev $swp1.$vlan type vlan ingress 0:0 1:1
 	done

 	ip link set dev br10 up
 	ip link set dev br11 up
 }

 switch_destroy()
 {
 	local intf
 	local vlan

 	# A test may have been interrupted mid-run, with Qdisc installed. Delete
 	# it here.
 	tc qdisc del dev $swp2 root 2>/dev/null

 	ip link set dev br11 down
 	ip link set dev br10 down

 	for intf in $swp2 $swp1; do
 		for vlan in 11 10; do
 			ip link set dev $intf.$vlan down
 			ip link set dev $intf.$vlan nomaster
 			vlan_destroy $intf $vlan
 		done

 		mtu_restore $intf
 		ip link set dev $intf down
 	done

 	ip link del dev br11
 	ip link del dev br10
 }

 setup_prepare()
 {
 	h1=${NETIFS[p1]}
 	swp1=${NETIFS[p2]}

 	swp2=${NETIFS[p3]}
 	h2=${NETIFS[p4]}

 	swp3=${NETIFS[p5]}
 	h3=${NETIFS[p6]}

 	swp4=${NETIFS[p7]}
 	swp5=${NETIFS[p8]}

 	h2_mac=$(mac_get $h2)

 	vrf_prepare

 	h1_create
 	h2_create
 	switch_create
 }

 cleanup()
 {
 	pre_cleanup

 	switch_destroy
 	h2_destroy
 	h1_destroy

 	vrf_cleanup
 }

 ping_ipv4()
 {
 	ping_test $h1.10 $(ipaddr 2 10) " vlan 10"
 	ping_test $h1.11 $(ipaddr 2 11) " vlan 11"
 }

 tbf_get_counter()
 {
 	local vlan=$1; shift

 	tc_rule_stats_get $h2 10$vlan ingress .bytes
 }

 do_tbf_test()
 {
 	local vlan=$1; shift
 	local mbit=$1; shift

 	start_traffic $h1.$vlan $(ipaddr 1 $vlan) $(ipaddr 2 $vlan) $h2_mac
 	sleep 5 # Wait for the burst to dwindle

 	local t2=$(busywait_for_counter 1000 +1 tbf_get_counter $vlan)
 	sleep 10
 	local t3=$(tbf_get_counter $vlan)
 	stop_traffic

 	RET=0

 	# Note: TBF uses 10^6 Mbits, not 2^20 ones.
 	local er=$((mbit * 1000 * 1000))
 	local nr=$(rate $t2 $t3 10)
 	local nr_pct=$((100 * (nr - er) / er))
 	((-5 <= nr_pct && nr_pct <= 5))
 	check_err $? "Expected rate $(humanize $er), got $(humanize $nr), which is $nr_pct% off. Required accuracy is +-5%."

 	log_test "TC $((vlan - 10)): TBF rate ${mbit}Mbit"
 }
	# SPDX-License-Identifier: GPL-2.0

	# This test sends a stream of traffic from H1 through a switch, to H2. On the
	# egress port from the switch ($swp2), a shaper is installed. The test verifies
	# that the rates on the port match the configured shaper.
	#
	# In order to test per-class shaping, $swp2 actually contains TBF under PRIO or
	# ETS, with two different configurations. Traffic is prioritized using 802.1p.
	#
	# +-------------------------------------------+
	# \| H1 \|
	# \| + $h1.10 $h1.11 + \|
	# \| \| 192.0.2.1/28 192.0.2.17/28 \| \|
	# \| \| \| \|
	# \| \______________ _____________/ \|
	# \| \ / \|
	# \| + $h1 \|
	# +---------------------\|---------------------+
	# \|
	# +---------------------\|---------------------+
	# \| SW + $swp1 \|
	# \| _______________/ \_______________ \|
	# \| / \ \|
	# \| +-\|--------------+ +--------------\|-+ \|
	# \| \| + $swp1.10 \| \| $swp1.11 + \| \|
	# \| \| \| \| \| \|
	# \| \| BR10 \| \| BR11 \| \|
	# \| \| \| \| \| \|
	# \| \| + $swp2.10 \| \| $swp2.11 + \| \|
	# \| +-\|--------------+ +--------------\|-+ \|
	# \| \_______________ ______________/ \|
	# \| \ / \|
	# \| + $swp2 \|
	# +---------------------\|---------------------+
	# \|
	# +---------------------\|---------------------+
	# \| H2 + $h2 \|
	# \| ______________/ \______________ \|
	# \| / \ \|
	# \| \| \| \|
	# \| + $h2.10 $h2.11 + \|
	# \| 192.0.2.2/28 192.0.2.18/28 \|
	# +-------------------------------------------+

	NUM_NETIFS=4
	CHECK_TC="yes"
	source $lib_dir/lib.sh

	ipaddr()
	{
	local host=$1; shift
	local vlan=$1; shift

	echo 192.0.2.$((16 * (vlan - 10) + host))
	}

	host_create()
	{
	local dev=$1; shift
	local host=$1; shift

	simple_if_init $dev
	mtu_set $dev 10000

	vlan_create $dev 10 v$dev $(ipaddr $host 10)/28
	ip link set dev $dev.10 type vlan egress 0:0

	vlan_create $dev 11 v$dev $(ipaddr $host 11)/28
	ip link set dev $dev.11 type vlan egress 0:1
	}

	host_destroy()
	{
	local dev=$1; shift

	vlan_destroy $dev 11
	vlan_destroy $dev 10
	mtu_restore $dev
	simple_if_fini $dev
	}

	h1_create()
	{
	host_create $h1 1
	}

	h1_destroy()
	{
	host_destroy $h1
	}

	h2_create()
	{
	host_create $h2 2

	tc qdisc add dev $h2 clsact
	tc filter add dev $h2 ingress pref 1010 prot 802.1q \
	flower $TCFLAGS vlan_id 10 action pass
	tc filter add dev $h2 ingress pref 1011 prot 802.1q \
	flower $TCFLAGS vlan_id 11 action pass
	}

	h2_destroy()
	{
	tc qdisc del dev $h2 clsact
	host_destroy $h2
	}

	switch_create()
	{
	local intf
	local vlan

	ip link add dev br10 type bridge
	ip link add dev br11 type bridge

	for intf in $swp1 $swp2; do
	ip link set dev $intf up
	mtu_set $intf 10000

	for vlan in 10 11; do
	vlan_create $intf $vlan
	ip link set dev $intf.$vlan master br$vlan
	ip link set dev $intf.$vlan up
	done
	done

	for vlan in 10 11; do
	ip link set dev $swp1.$vlan type vlan ingress 0:0 1:1
	done

	ip link set dev br10 up
	ip link set dev br11 up
	}

	switch_destroy()
	{
	local intf
	local vlan

	# A test may have been interrupted mid-run, with Qdisc installed. Delete
	# it here.
	tc qdisc del dev $swp2 root 2>/dev/null

	ip link set dev br11 down
	ip link set dev br10 down

	for intf in $swp2 $swp1; do
	for vlan in 11 10; do
	ip link set dev $intf.$vlan down
	ip link set dev $intf.$vlan nomaster
	vlan_destroy $intf $vlan
	done

	mtu_restore $intf
	ip link set dev $intf down
	done

	ip link del dev br11
	ip link del dev br10
	}

	setup_prepare()
	{
	h1=${NETIFS[p1]}
	swp1=${NETIFS[p2]}

	swp2=${NETIFS[p3]}
	h2=${NETIFS[p4]}

	swp3=${NETIFS[p5]}
	h3=${NETIFS[p6]}

	swp4=${NETIFS[p7]}
	swp5=${NETIFS[p8]}

	h2_mac=$(mac_get $h2)

	vrf_prepare

	h1_create
	h2_create
	switch_create
	}

	cleanup()
	{
	pre_cleanup

	switch_destroy
	h2_destroy
	h1_destroy

	vrf_cleanup
	}

	ping_ipv4()
	{
	ping_test $h1.10 $(ipaddr 2 10) " vlan 10"
	ping_test $h1.11 $(ipaddr 2 11) " vlan 11"
	}

	tbf_get_counter()
	{
	local vlan=$1; shift

	tc_rule_stats_get $h2 10$vlan ingress .bytes
	}

	do_tbf_test()
	{
	local vlan=$1; shift
	local mbit=$1; shift

	start_traffic $h1.$vlan $(ipaddr 1 $vlan) $(ipaddr 2 $vlan) $h2_mac
	sleep 5 # Wait for the burst to dwindle

	local t2=$(busywait_for_counter 1000 +1 tbf_get_counter $vlan)
	sleep 10
	local t3=$(tbf_get_counter $vlan)
	stop_traffic

	RET=0

	# Note: TBF uses 10^6 Mbits, not 2^20 ones.
	local er=$((mbit * 1000 * 1000))
	local nr=$(rate $t2 $t3 10)
	local nr_pct=$((100 * (nr - er) / er))
	((-5 <= nr_pct && nr_pct <= 5))
	check_err $? "Expected rate $(humanize $er), got $(humanize $nr), which is $nr_pct% off. Required accuracy is +-5%."

	log_test "TC $((vlan - 10)): TBF rate ${mbit}Mbit"
	}