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

 #!/bin/bash
 # SPDX-License-Identifier: GPL-2.0

 ALL_TESTS="
 	manual_with_verification_h1_to_h2
 	manual_with_verification_h2_to_h1
 	manual_without_verification_h1_to_h2
 	manual_without_verification_h2_to_h1
 	manual_failed_verification_h1_to_h2
 	manual_failed_verification_h2_to_h1
 	lldp
 "

 NUM_NETIFS=2
 REQUIRE_MZ=no
 PREEMPTIBLE_PRIO=0
 source lib.sh

 traffic_test()
 {
 	local if=$1; shift
 	local src=$1; shift
 	local num_pkts=10000
 	local before=
 	local after=
 	local delta=

 	if [ ${has_pmac_stats[$if]} = false ]; then
 		src="aggregate"
 	fi

 	before=$(ethtool_std_stats_get $if "eth-mac" "FramesTransmittedOK" $src)

 	$MZ $if -q -c $num_pkts -p 64 -b bcast -t ip -R $PREEMPTIBLE_PRIO

 	after=$(ethtool_std_stats_get $if "eth-mac" "FramesTransmittedOK" $src)

 	delta=$((after - before))

 	# Allow an extra 1% tolerance for random packets sent by the stack
 	[ $delta -ge $num_pkts ] && [ $delta -le $((num_pkts + 100)) ]
 }

 manual_with_verification()
 {
 	local tx=$1; shift
 	local rx=$1; shift

 	RET=0

 	# It isn't completely clear from IEEE 802.3-2018 Figure 99-5: Transmit
 	# Processing state diagram whether the "send_r" variable (send response
 	# to verification frame) should be taken into consideration while the
 	# MAC Merge TX direction is disabled. That being said, at least the
 	# NXP ENETC does not, and requires tx-enabled on in order to respond to
 	# the link partner's verification frames.
 	ethtool --set-mm $rx tx-enabled on
 	ethtool --set-mm $tx verify-enabled on tx-enabled on

 	# Wait for verification to finish
 	sleep 1

 	ethtool --json --show-mm $tx | jq -r '.[]."verify-status"' | \
 		grep -q 'SUCCEEDED'
 	check_err "$?" "Verification did not succeed"

 	ethtool --json --show-mm $tx | jq -r '.[]."tx-active"' | grep -q 'true'
 	check_err "$?" "pMAC TX is not active"

 	traffic_test $tx "pmac"
 	check_err "$?" "Traffic did not get sent through $tx's pMAC"

 	ethtool --set-mm $tx verify-enabled off tx-enabled off
 	ethtool --set-mm $rx tx-enabled off

 	log_test "Manual configuration with verification: $tx to $rx"
 }

 manual_with_verification_h1_to_h2()
 {
 	manual_with_verification $h1 $h2
 }

 manual_with_verification_h2_to_h1()
 {
 	manual_with_verification $h2 $h1
 }

 manual_without_verification()
 {
 	local tx=$1; shift
 	local rx=$1; shift

 	RET=0

 	ethtool --set-mm $tx verify-enabled off tx-enabled on

 	ethtool --json --show-mm $tx | jq -r '.[]."verify-status"' | \
 		grep -q 'DISABLED'
 	check_err "$?" "Verification is not disabled"

 	ethtool --json --show-mm $tx | jq -r '.[]."tx-active"' | grep -q 'true'
 	check_err "$?" "pMAC TX is not active"

 	traffic_test $tx "pmac"
 	check_err "$?" "Traffic did not get sent through $tx's pMAC"

 	ethtool --set-mm $tx verify-enabled off tx-enabled off

 	log_test "Manual configuration without verification: $tx to $rx"
 }

 manual_without_verification_h1_to_h2()
 {
 	manual_without_verification $h1 $h2
 }

 manual_without_verification_h2_to_h1()
 {
 	manual_without_verification $h2 $h1
 }

 manual_failed_verification()
 {
 	local tx=$1; shift
 	local rx=$1; shift

 	RET=0

 	ethtool --set-mm $rx pmac-enabled off
 	ethtool --set-mm $tx verify-enabled on tx-enabled on

 	# Wait for verification to time out
 	sleep 1

 	ethtool --json --show-mm $tx | jq -r '.[]."verify-status"' | \
 		grep -q 'SUCCEEDED'
 	check_fail "$?" "Verification succeeded when it shouldn't have"

 	ethtool --json --show-mm $tx | jq -r '.[]."tx-active"' | grep -q 'true'
 	check_fail "$?" "pMAC TX is active when it shouldn't have"

 	traffic_test $tx "emac"
 	check_err "$?" "Traffic did not get sent through $tx's eMAC"

 	ethtool --set-mm $tx verify-enabled off tx-enabled off
 	ethtool --set-mm $rx pmac-enabled on

 	log_test "Manual configuration with failed verification: $tx to $rx"
 }

 manual_failed_verification_h1_to_h2()
 {
 	manual_failed_verification $h1 $h2
 }

 manual_failed_verification_h2_to_h1()
 {
 	manual_failed_verification $h2 $h1
 }

 smallest_supported_add_frag_size()
 {
 	local iface=$1
 	local rx_min_frag_size=

 	rx_min_frag_size=$(ethtool --json --show-mm $iface | \
 		jq '.[]."rx-min-frag-size"')

 	if [ $rx_min_frag_size -le 60 ]; then
 		echo 0
 	elif [ $rx_min_frag_size -le 124 ]; then
 		echo 1
 	elif [ $rx_min_frag_size -le 188 ]; then
 		echo 2
 	elif [ $rx_min_frag_size -le 252 ]; then
 		echo 3
 	else
 		echo "$iface: RX min frag size $rx_min_frag_size cannot be advertised over LLDP"
 		exit 1
 	fi
 }

 expected_add_frag_size()
 {
 	local iface=$1
 	local requested=$2
 	local min=$(smallest_supported_add_frag_size $iface)

 	[ $requested -le $min ] && echo $min || echo $requested
 }

 lldp_change_add_frag_size()
 {
 	local add_frag_size=$1
 	local pattern=

 	lldptool -T -i $h1 -V addEthCaps addFragSize=$add_frag_size >/dev/null
 	# Wait for TLVs to be received
 	sleep 2
 	pattern=$(printf "Additional fragment size: %d" \
 			 $(expected_add_frag_size $h1 $add_frag_size))
 	lldptool -i $h2 -t -n -V addEthCaps | grep -q "$pattern"
 }

 lldp()
 {
 	RET=0

 	systemctl start lldpad

 	# Configure the interfaces to receive and transmit LLDPDUs
 	lldptool -L -i $h1 adminStatus=rxtx >/dev/null
 	lldptool -L -i $h2 adminStatus=rxtx >/dev/null

 	# Enable the transmission of Additional Ethernet Capabilities TLV
 	lldptool -T -i $h1 -V addEthCaps enableTx=yes >/dev/null
 	lldptool -T -i $h2 -V addEthCaps enableTx=yes >/dev/null

 	# Wait for TLVs to be received
 	sleep 2

 	lldptool -i $h1 -t -n -V addEthCaps | \
 		grep -q "Preemption capability active"
 	check_err "$?" "$h1 pMAC TX is not active"

 	lldptool -i $h2 -t -n -V addEthCaps | \
 		grep -q "Preemption capability active"
 	check_err "$?" "$h2 pMAC TX is not active"

 	lldp_change_add_frag_size 3
 	check_err "$?" "addFragSize 3"

 	lldp_change_add_frag_size 2
 	check_err "$?" "addFragSize 2"

 	lldp_change_add_frag_size 1
 	check_err "$?" "addFragSize 1"

 	lldp_change_add_frag_size 0
 	check_err "$?" "addFragSize 0"

 	traffic_test $h1 "pmac"
 	check_err "$?" "Traffic did not get sent through $h1's pMAC"

 	traffic_test $h2 "pmac"
 	check_err "$?" "Traffic did not get sent through $h2's pMAC"

 	systemctl stop lldpad

 	log_test "LLDP"
 }

 h1_create()
 {
 	ip link set dev $h1 up

 	tc qdisc add dev $h1 root mqprio num_tc 4 map 0 1 2 3 \
 		queues 1@0 1@1 1@2 1@3 \
 		fp P E E E \
 		hw 1

 	ethtool --set-mm $h1 pmac-enabled on tx-enabled off verify-enabled off
 }

 h2_create()
 {
 	ip link set dev $h2 up

 	ethtool --set-mm $h2 pmac-enabled on tx-enabled off verify-enabled off

 	tc qdisc add dev $h2 root mqprio num_tc 4 map 0 1 2 3 \
 		queues 1@0 1@1 1@2 1@3 \
 		fp P E E E \
 		hw 1
 }

 h1_destroy()
 {
 	ethtool --set-mm $h1 pmac-enabled off tx-enabled off verify-enabled off

 	tc qdisc del dev $h1 root

 	ip link set dev $h1 down
 }

 h2_destroy()
 {
 	tc qdisc del dev $h2 root

 	ethtool --set-mm $h2 pmac-enabled off tx-enabled off verify-enabled off

 	ip link set dev $h2 down
 }

 setup_prepare()
 {
 	h1=${NETIFS[p1]}
 	h2=${NETIFS[p2]}

 	h1_create
 	h2_create
 }

 cleanup()
 {
 	pre_cleanup

 	h2_destroy
 	h1_destroy
 }

 check_ethtool_mm_support
 check_tc_fp_support
 require_command lldptool
 bail_on_lldpad "autoconfigure the MAC Merge layer" "configure it manually"

 for netif in ${NETIFS[@]}; do
 	ethtool --show-mm $netif 2>&1 &> /dev/null
 	if [[ $? -ne 0 ]]; then
 		echo "SKIP: $netif does not support MAC Merge"
 		exit $ksft_skip
 	fi

 	if check_ethtool_pmac_std_stats_support $netif eth-mac; then
 		has_pmac_stats[$netif]=true
 	else
 		has_pmac_stats[$netif]=false
 		echo "$netif does not report pMAC statistics, falling back to aggregate"
 	fi
 done

 trap cleanup EXIT

 setup_prepare
 setup_wait

 tests_run

 exit $EXIT_STATUS
	#!/bin/bash
	# SPDX-License-Identifier: GPL-2.0

	ALL_TESTS="
	manual_with_verification_h1_to_h2
	manual_with_verification_h2_to_h1
	manual_without_verification_h1_to_h2
	manual_without_verification_h2_to_h1
	manual_failed_verification_h1_to_h2
	manual_failed_verification_h2_to_h1
	lldp
	"

	NUM_NETIFS=2
	REQUIRE_MZ=no
	PREEMPTIBLE_PRIO=0
	source lib.sh

	traffic_test()
	{
	local if=$1; shift
	local src=$1; shift
	local num_pkts=10000
	local before=
	local after=
	local delta=

	if [ ${has_pmac_stats[$if]} = false ]; then
	src="aggregate"
	fi

	before=$(ethtool_std_stats_get $if "eth-mac" "FramesTransmittedOK" $src)

	$MZ $if -q -c $num_pkts -p 64 -b bcast -t ip -R $PREEMPTIBLE_PRIO

	after=$(ethtool_std_stats_get $if "eth-mac" "FramesTransmittedOK" $src)

	delta=$((after - before))

	# Allow an extra 1% tolerance for random packets sent by the stack
	[ $delta -ge $num_pkts ] && [ $delta -le $((num_pkts + 100)) ]
	}

	manual_with_verification()
	{
	local tx=$1; shift
	local rx=$1; shift

	RET=0

	# It isn't completely clear from IEEE 802.3-2018 Figure 99-5: Transmit
	# Processing state diagram whether the "send_r" variable (send response
	# to verification frame) should be taken into consideration while the
	# MAC Merge TX direction is disabled. That being said, at least the
	# NXP ENETC does not, and requires tx-enabled on in order to respond to
	# the link partner's verification frames.
	ethtool --set-mm $rx tx-enabled on
	ethtool --set-mm $tx verify-enabled on tx-enabled on

	# Wait for verification to finish
	sleep 1

	ethtool --json --show-mm $tx \| jq -r '.[]."verify-status"' \| \
	grep -q 'SUCCEEDED'
	check_err "$?" "Verification did not succeed"

	ethtool --json --show-mm $tx \| jq -r '.[]."tx-active"' \| grep -q 'true'
	check_err "$?" "pMAC TX is not active"

	traffic_test $tx "pmac"
	check_err "$?" "Traffic did not get sent through $tx's pMAC"

	ethtool --set-mm $tx verify-enabled off tx-enabled off
	ethtool --set-mm $rx tx-enabled off

	log_test "Manual configuration with verification: $tx to $rx"
	}

	manual_with_verification_h1_to_h2()
	{
	manual_with_verification $h1 $h2
	}

	manual_with_verification_h2_to_h1()
	{
	manual_with_verification $h2 $h1
	}

	manual_without_verification()
	{
	local tx=$1; shift
	local rx=$1; shift

	RET=0

	ethtool --set-mm $tx verify-enabled off tx-enabled on

	ethtool --json --show-mm $tx \| jq -r '.[]."verify-status"' \| \
	grep -q 'DISABLED'
	check_err "$?" "Verification is not disabled"

	ethtool --json --show-mm $tx \| jq -r '.[]."tx-active"' \| grep -q 'true'
	check_err "$?" "pMAC TX is not active"

	traffic_test $tx "pmac"
	check_err "$?" "Traffic did not get sent through $tx's pMAC"

	ethtool --set-mm $tx verify-enabled off tx-enabled off

	log_test "Manual configuration without verification: $tx to $rx"
	}

	manual_without_verification_h1_to_h2()
	{
	manual_without_verification $h1 $h2
	}

	manual_without_verification_h2_to_h1()
	{
	manual_without_verification $h2 $h1
	}

	manual_failed_verification()
	{
	local tx=$1; shift
	local rx=$1; shift

	RET=0

	ethtool --set-mm $rx pmac-enabled off
	ethtool --set-mm $tx verify-enabled on tx-enabled on

	# Wait for verification to time out
	sleep 1

	ethtool --json --show-mm $tx \| jq -r '.[]."verify-status"' \| \
	grep -q 'SUCCEEDED'
	check_fail "$?" "Verification succeeded when it shouldn't have"

	ethtool --json --show-mm $tx \| jq -r '.[]."tx-active"' \| grep -q 'true'
	check_fail "$?" "pMAC TX is active when it shouldn't have"

	traffic_test $tx "emac"
	check_err "$?" "Traffic did not get sent through $tx's eMAC"

	ethtool --set-mm $tx verify-enabled off tx-enabled off
	ethtool --set-mm $rx pmac-enabled on

	log_test "Manual configuration with failed verification: $tx to $rx"
	}

	manual_failed_verification_h1_to_h2()
	{
	manual_failed_verification $h1 $h2
	}

	manual_failed_verification_h2_to_h1()
	{
	manual_failed_verification $h2 $h1
	}

	smallest_supported_add_frag_size()
	{
	local iface=$1
	local rx_min_frag_size=

	rx_min_frag_size=$(ethtool --json --show-mm $iface \| \
	jq '.[]."rx-min-frag-size"')

	if [ $rx_min_frag_size -le 60 ]; then
	echo 0
	elif [ $rx_min_frag_size -le 124 ]; then
	echo 1
	elif [ $rx_min_frag_size -le 188 ]; then
	echo 2
	elif [ $rx_min_frag_size -le 252 ]; then
	echo 3
	else
	echo "$iface: RX min frag size $rx_min_frag_size cannot be advertised over LLDP"
	exit 1
	fi
	}

	expected_add_frag_size()
	{
	local iface=$1
	local requested=$2
	local min=$(smallest_supported_add_frag_size $iface)

	[ $requested -le $min ] && echo $min \|\| echo $requested
	}

	lldp_change_add_frag_size()
	{
	local add_frag_size=$1
	local pattern=

	lldptool -T -i $h1 -V addEthCaps addFragSize=$add_frag_size >/dev/null
	# Wait for TLVs to be received
	sleep 2
	pattern=$(printf "Additional fragment size: %d" \
	$(expected_add_frag_size $h1 $add_frag_size))
	lldptool -i $h2 -t -n -V addEthCaps \| grep -q "$pattern"
	}

	lldp()
	{
	RET=0

	systemctl start lldpad

	# Configure the interfaces to receive and transmit LLDPDUs
	lldptool -L -i $h1 adminStatus=rxtx >/dev/null
	lldptool -L -i $h2 adminStatus=rxtx >/dev/null

	# Enable the transmission of Additional Ethernet Capabilities TLV
	lldptool -T -i $h1 -V addEthCaps enableTx=yes >/dev/null
	lldptool -T -i $h2 -V addEthCaps enableTx=yes >/dev/null

	# Wait for TLVs to be received
	sleep 2

	lldptool -i $h1 -t -n -V addEthCaps \| \
	grep -q "Preemption capability active"
	check_err "$?" "$h1 pMAC TX is not active"

	lldptool -i $h2 -t -n -V addEthCaps \| \
	grep -q "Preemption capability active"
	check_err "$?" "$h2 pMAC TX is not active"

	lldp_change_add_frag_size 3
	check_err "$?" "addFragSize 3"

	lldp_change_add_frag_size 2
	check_err "$?" "addFragSize 2"

	lldp_change_add_frag_size 1
	check_err "$?" "addFragSize 1"

	lldp_change_add_frag_size 0
	check_err "$?" "addFragSize 0"

	traffic_test $h1 "pmac"
	check_err "$?" "Traffic did not get sent through $h1's pMAC"

	traffic_test $h2 "pmac"
	check_err "$?" "Traffic did not get sent through $h2's pMAC"

	systemctl stop lldpad

	log_test "LLDP"
	}

	h1_create()
	{
	ip link set dev $h1 up

	tc qdisc add dev $h1 root mqprio num_tc 4 map 0 1 2 3 \
	queues 1@0 1@1 1@2 1@3 \
	fp P E E E \
	hw 1

	ethtool --set-mm $h1 pmac-enabled on tx-enabled off verify-enabled off
	}

	h2_create()
	{
	ip link set dev $h2 up

	ethtool --set-mm $h2 pmac-enabled on tx-enabled off verify-enabled off

	tc qdisc add dev $h2 root mqprio num_tc 4 map 0 1 2 3 \
	queues 1@0 1@1 1@2 1@3 \
	fp P E E E \
	hw 1
	}

	h1_destroy()
	{
	ethtool --set-mm $h1 pmac-enabled off tx-enabled off verify-enabled off

	tc qdisc del dev $h1 root

	ip link set dev $h1 down
	}

	h2_destroy()
	{
	tc qdisc del dev $h2 root

	ethtool --set-mm $h2 pmac-enabled off tx-enabled off verify-enabled off

	ip link set dev $h2 down
	}

	setup_prepare()
	{
	h1=${NETIFS[p1]}
	h2=${NETIFS[p2]}

	h1_create
	h2_create
	}

	cleanup()
	{
	pre_cleanup

	h2_destroy
	h1_destroy
	}

	check_ethtool_mm_support
	check_tc_fp_support
	require_command lldptool
	bail_on_lldpad "autoconfigure the MAC Merge layer" "configure it manually"

	for netif in ${NETIFS[@]}; do
	ethtool --show-mm $netif 2>&1 &> /dev/null
	if [[ $? -ne 0 ]]; then
	echo "SKIP: $netif does not support MAC Merge"
	exit $ksft_skip
	fi

	if check_ethtool_pmac_std_stats_support $netif eth-mac; then
	has_pmac_stats[$netif]=true
	else
	has_pmac_stats[$netif]=false
	echo "$netif does not report pMAC statistics, falling back to aggregate"
	fi
	done

	trap cleanup EXIT

	setup_prepare
	setup_wait

	tests_run

	exit $EXIT_STATUS