Commit 5ab0cf14 authored by Amit Cohen's avatar Amit Cohen Committed by Jakub Kicinski

selftests: mlxsw: Add QOS test for maximum use of descriptors

Add an equivalent test to qos_burst, the test's purpose is same, but the
new test uses simpler topology and does not require forcing low speed.
In addition, it can be run Spectrum-2 and not only Spectrum-3+. The idea
is to use a shaper in order to limit the traffic and create congestion.

qos_burst test uses small pool, sends many small packets, and verify that
packets are not dropped, which means that many descriptors can be handled.
This test should check the change that commit c864769a
("mlxsw: Configure descriptor buffers") pushed.

Instead, the new test tries to use more than 85% of maximum supported
descriptors. The idea is to use big pool (as much as the ASIC supports),
such that the pool size does not limit the traffic, then send many small
packets, which means that many descriptors are used, and check how many
packets the switch can handle.

The usage of shaper allows to run the test in all ASICs, regardless of
the CPU abilities, as it is able to create the congestion with low rate
of packets.
Signed-off-by: default avatarAmit Cohen <amcohen@nvidia.com>
Reviewed-by: default avatarPetr Machata <petrm@nvidia.com>
Signed-off-by: default avatarPetr Machata <petrm@nvidia.com>
Signed-off-by: default avatarJakub Kicinski <kuba@kernel.org>
parent bd3f7850
...@@ -61,3 +61,17 @@ mlxsw_only_on_spectrum() ...@@ -61,3 +61,17 @@ mlxsw_only_on_spectrum()
return 1 return 1
} }
mlxsw_max_descriptors_get()
{
local spectrum_rev=$MLXSW_SPECTRUM_REV
case $spectrum_rev in
1) echo 81920 ;;
2) echo 136960 ;;
3) echo 204800 ;;
4) echo 220000 ;;
*) echo "Unknown max descriptors for chip revision." > /dev/stderr
return 1 ;;
esac
}
#!/bin/bash
# SPDX-License-Identifier: GPL-2.0
#
# This test sends many small packets (size is less than cell size) through the
# switch. A shaper is used in $swp2, so the traffic is limited there. Packets
# are queued till they will be sent.
#
# The idea is to verify that the switch can handle at least 85% of maximum
# supported descrpitors by hardware. Then, we verify that the driver configures
# firmware to allow infinite size of egress descriptor pool, and does not use a
# lower limitation. Increase the size of the relevant pools such that the pool's
# size does not limit the traffic.
# +-----------------------+
# | H1 |
# | + $h1.111 |
# | | 192.0.2.33/28 |
# | | |
# | + $h1 |
# +---|-------------------+
# |
# +---|-----------------------------+
# | + $swp1 |
# | | iPOOL1 |
# | | |
# | +-|------------------------+ |
# | | + $swp1.111 | |
# | | | |
# | | BR1 | |
# | | | |
# | | + $swp2.111 | |
# | +-|------------------------+ |
# | | |
# | + $swp2 |
# | | ePOOL6 |
# | | 1mbit |
# +---+-----------------------------+
# |
# +---|-------------------+
# | + $h2 H2 |
# | | |
# | + $h2.111 |
# | 192.0.2.34/28 |
# +-----------------------+
#
ALL_TESTS="
ping_ipv4
max_descriptors
"
lib_dir=$(dirname $0)/../../../net/forwarding
NUM_NETIFS=4
source $lib_dir/lib.sh
source $lib_dir/devlink_lib.sh
source mlxsw_lib.sh
MAX_POOL_SIZE=$(devlink_pool_size_get)
SHAPER_RATE=1mbit
# The current TBF qdisc interface does not allow us to configure the shaper to
# flat zero. The ASIC shaper is guaranteed to work with a granularity of
# 200Mbps. On Spectrum-2, writing a value close to zero instead of zero works
# well, but the performance on Spectrum-1 is unpredictable. Thus, do not run the
# test on Spectrum-1.
mlxsw_only_on_spectrum 2+ || exit
h1_create()
{
simple_if_init $h1
vlan_create $h1 111 v$h1 192.0.2.33/28
ip link set dev $h1.111 type vlan egress-qos-map 0:1
}
h1_destroy()
{
vlan_destroy $h1 111
simple_if_fini $h1
}
h2_create()
{
simple_if_init $h2
vlan_create $h2 111 v$h2 192.0.2.34/28
}
h2_destroy()
{
vlan_destroy $h2 111
simple_if_fini $h2
}
switch_create()
{
# pools
# -----
devlink_pool_size_thtype_save 1
devlink_pool_size_thtype_save 6
devlink_port_pool_th_save $swp1 1
devlink_port_pool_th_save $swp2 6
devlink_tc_bind_pool_th_save $swp1 1 ingress
devlink_tc_bind_pool_th_save $swp2 1 egress
devlink_pool_size_thtype_set 1 dynamic $MAX_POOL_SIZE
devlink_pool_size_thtype_set 6 static $MAX_POOL_SIZE
# $swp1
# -----
ip link set dev $swp1 up
vlan_create $swp1 111
ip link set dev $swp1.111 type vlan ingress-qos-map 0:0 1:1
devlink_port_pool_th_set $swp1 1 16
devlink_tc_bind_pool_th_set $swp1 1 ingress 1 16
tc qdisc replace dev $swp1 root handle 1: \
ets bands 8 strict 8 priomap 7 6
dcb buffer set dev $swp1 prio-buffer all:0 1:1
# $swp2
# -----
ip link set dev $swp2 up
vlan_create $swp2 111
ip link set dev $swp2.111 type vlan egress-qos-map 0:0 1:1
devlink_port_pool_th_set $swp2 6 $MAX_POOL_SIZE
devlink_tc_bind_pool_th_set $swp2 1 egress 6 $MAX_POOL_SIZE
tc qdisc replace dev $swp2 root handle 1: tbf rate $SHAPER_RATE \
burst 128K limit 500M
tc qdisc replace dev $swp2 parent 1:1 handle 11: \
ets bands 8 strict 8 priomap 7 6
# bridge
# ------
ip link add name br1 type bridge vlan_filtering 0
ip link set dev $swp1.111 master br1
ip link set dev br1 up
ip link set dev $swp2.111 master br1
}
switch_destroy()
{
# Do this first so that we can reset the limits to values that are only
# valid for the original static / dynamic setting.
devlink_pool_size_thtype_restore 6
devlink_pool_size_thtype_restore 1
# bridge
# ------
ip link set dev $swp2.111 nomaster
ip link set dev br1 down
ip link set dev $swp1.111 nomaster
ip link del dev br1
# $swp2
# -----
tc qdisc del dev $swp2 parent 1:1 handle 11:
tc qdisc del dev $swp2 root
devlink_tc_bind_pool_th_restore $swp2 1 egress
devlink_port_pool_th_restore $swp2 6
vlan_destroy $swp2 111
ip link set dev $swp2 down
# $swp1
# -----
dcb buffer set dev $swp1 prio-buffer all:0
tc qdisc del dev $swp1 root
devlink_tc_bind_pool_th_restore $swp1 1 ingress
devlink_port_pool_th_restore $swp1 1
vlan_destroy $swp1 111
ip link set dev $swp1 down
}
setup_prepare()
{
h1=${NETIFS[p1]}
swp1=${NETIFS[p2]}
swp2=${NETIFS[p3]}
h2=${NETIFS[p4]}
h2mac=$(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 192.0.2.34 " h1->h2"
}
percentage_used()
{
local num_packets=$1; shift
local max_packets=$1; shift
bc <<< "
scale=2
100 * $num_packets / $max_packets
"
}
max_descriptors()
{
local cell_size=$(devlink_cell_size_get)
local exp_perc_used=85
local max_descriptors
local pktsize=30
RET=0
max_descriptors=$(mlxsw_max_descriptors_get) || exit 1
local d0=$(ethtool_stats_get $swp2 tc_no_buffer_discard_uc_tc_1)
log_info "Send many small packets, packet size = $pktsize bytes"
start_traffic_pktsize $pktsize $h1.111 192.0.2.33 192.0.2.34 $h2mac
# Sleep to wait for congestion.
sleep 5
local d1=$(ethtool_stats_get $swp2 tc_no_buffer_discard_uc_tc_1)
((d1 == d0))
check_err $? "Drops seen on egress port: $d0 -> $d1 ($((d1 - d0)))"
# Check how many packets the switch can handle, the limitation is
# maximum descriptors.
local pkts_bytes=$(ethtool_stats_get $swp2 tc_transmit_queue_tc_1)
local pkts_num=$((pkts_bytes / cell_size))
local perc_used=$(percentage_used $pkts_num $max_descriptors)
check_err $(bc <<< "$perc_used < $exp_perc_used") \
"Expected > $exp_perc_used% of descriptors, handle $perc_used%"
stop_traffic
sleep 1
log_test "Maximum descriptors usage. The percentage used is $perc_used%"
}
trap cleanup EXIT
setup_prepare
setup_wait
tests_run
exit $EXIT_STATUS
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