linux-stable/tools/testing/selftests/net/so_txtime.sh

#!/bin/bash
# SPDX-License-Identifier: GPL-2.0
#
# Regression tests for the SO_TXTIME interface

set -e

readonly DEV="veth0"
readonly BIN="./so_txtime"

readonly RAND="$(mktemp -u XXXXXX)"
readonly NSPREFIX="ns-${RAND}"
readonly NS1="${NSPREFIX}1"
readonly NS2="${NSPREFIX}2"

readonly SADDR4='192.168.1.1'
readonly DADDR4='192.168.1.2'
readonly SADDR6='fd::1'
readonly DADDR6='fd::2'

cleanup() {
	ip netns del "${NS2}"
	ip netns del "${NS1}"
}

trap cleanup EXIT

# Create virtual ethernet pair between network namespaces
ip netns add "${NS1}"
ip netns add "${NS2}"

ip link add "${DEV}" netns "${NS1}" type veth \
  peer name "${DEV}" netns "${NS2}"

# Bring the devices up
ip -netns "${NS1}" link set "${DEV}" up
ip -netns "${NS2}" link set "${DEV}" up

# Set fixed MAC addresses on the devices
ip -netns "${NS1}" link set dev "${DEV}" address 02:02:02:02:02:02
ip -netns "${NS2}" link set dev "${DEV}" address 06:06:06:06:06:06

# Add fixed IP addresses to the devices
ip -netns "${NS1}" addr add 192.168.1.1/24 dev "${DEV}"
ip -netns "${NS2}" addr add 192.168.1.2/24 dev "${DEV}"
ip -netns "${NS1}" addr add       fd::1/64 dev "${DEV}" nodad
ip -netns "${NS2}" addr add       fd::2/64 dev "${DEV}" nodad

do_test() {
	local readonly IP="$1"
	local readonly CLOCK="$2"
	local readonly TXARGS="$3"
	local readonly RXARGS="$4"

	if [[ "${IP}" == "4" ]]; then
		local readonly SADDR="${SADDR4}"
		local readonly DADDR="${DADDR4}"
	elif [[ "${IP}" == "6" ]]; then
		local readonly SADDR="${SADDR6}"
		local readonly DADDR="${DADDR6}"
	else
		echo "Invalid IP version ${IP}"
		exit 1
	fi

	local readonly START="$(date +%s%N --date="+ 0.1 seconds")"
	ip netns exec "${NS2}" "${BIN}" -"${IP}" -c "${CLOCK}" -t "${START}" -S "${SADDR}" -D "${DADDR}" "${RXARGS}" -r &
	ip netns exec "${NS1}" "${BIN}" -"${IP}" -c "${CLOCK}" -t "${START}" -S "${SADDR}" -D "${DADDR}" "${TXARGS}"
	wait "$!"
}

ip netns exec "${NS1}" tc qdisc add dev "${DEV}" root fq
do_test 4 mono a,-1 a,-1
do_test 6 mono a,0 a,0
do_test 6 mono a,10 a,10
do_test 4 mono a,10,b,20 a,10,b,20
do_test 6 mono a,20,b,10 b,20,a,20

if ip netns exec "${NS1}" tc qdisc replace dev "${DEV}" root etf clockid CLOCK_TAI delta 400000; then
	! do_test 4 tai a,-1 a,-1
	! do_test 6 tai a,0 a,0
	do_test 6 tai a,10 a,10
	do_test 4 tai a,10,b,20 a,10,b,20
	do_test 6 tai a,20,b,10 b,10,a,20
else
	echo "tc ($(tc -V)) does not support qdisc etf. skipping"
fi

echo OK. All tests passed
selftests/net: SO_TXTIME with ETF and FQ The SO_TXTIME API enables packet tranmission with delayed delivery. This is currently supported by the ETF and FQ packet schedulers. Evaluate the interface with both schedulers. Install the scheduler and send a variety of packets streams: without delay, with one delayed packet, with multiple ordered delays and with reordering. Verify that packets are released by the scheduler in expected order. The ETF qdisc requires a timestamp in the future on every packet. It needs a delay on the qdisc else the packet is dropped on dequeue for having a delivery time in the past. The test value is experimentally derived. ETF requires clock_id CLOCK_TAI. It checks this base and drops for non-conformance. The FQ qdisc expects clock_id CLOCK_MONOTONIC, the base used by TCP as of commit fb420d5d91c1 ("tcp/fq: move back to CLOCK_MONOTONIC"). Within a flow there is an expecation of ordered delivery, as shown by delivery times of test 4. The FQ qdisc does not require all packets to have timestamps and does not drop for non-conformance. The large (msec) delays are chosen to avoid flakiness. Output: SO_TXTIME ipv6 clock monotonic payload:a delay:28 expected:0 (us) SO_TXTIME ipv4 clock monotonic payload:a delay:38 expected:0 (us) SO_TXTIME ipv6 clock monotonic payload:a delay:40 expected:0 (us) SO_TXTIME ipv4 clock monotonic payload:a delay:33 expected:0 (us) SO_TXTIME ipv6 clock monotonic payload:a delay:10120 expected:10000 (us) SO_TXTIME ipv4 clock monotonic payload:a delay:10102 expected:10000 (us) [.. etc ..] OK. All tests passed Changes v1->v2: update commit message output Signed-off-by: Willem de Bruijn <willemb@google.com> Acked-by: Eric Dumazet <edumazet@google.com> Acked-by: Vinicius Costa Gomes <vinicius.gomes@intel.com> Signed-off-by: David S. Miller <davem@davemloft.net> 2019-05-23 17:48:46 +00:00			`#!/bin/bash`
			`# SPDX-License-Identifier: GPL-2.0`
			`#`
			`# Regression tests for the SO_TXTIME interface`

selftests/net: so_txtime multi-host support SO_TXTIME hardware offload requires testing across devices, either between machines or separate network namespaces. Split up SO_TXTIME test into tx and rx modes, so traffic can be sent from one process to another. Create a veth-pair on different namespaces and bind each process to an end point via [-S]ource and [-D]estination parameters. Optional start [-t]ime parameter can be passed to synchronize the test across the hosts (with synchorinzed clocks). Signed-off-by: Carlos Llamas <cmllamas@google.com> Reviewed-by: Willem de Bruijn <willemb@google.com> Signed-off-by: David S. Miller <davem@davemloft.net> 2021-04-01 00:40:20 +00:00			`set -e`

			`readonly DEV="veth0"`
			`readonly BIN="./so_txtime"`

			`readonly RAND="$(mktemp -u XXXXXX)"`
			`readonly NSPREFIX="ns-${RAND}"`
			`readonly NS1="${NSPREFIX}1"`
			`readonly NS2="${NSPREFIX}2"`

			`readonly SADDR4='192.168.1.1'`
			`readonly DADDR4='192.168.1.2'`
			`readonly SADDR6='fd::1'`
			`readonly DADDR6='fd::2'`

			`cleanup() {`
			`ip netns del "${NS2}"`
			`ip netns del "${NS1}"`
			`}`

			`trap cleanup EXIT`

			`# Create virtual ethernet pair between network namespaces`
			`ip netns add "${NS1}"`
			`ip netns add "${NS2}"`

			`ip link add "${DEV}" netns "${NS1}" type veth \`
			`peer name "${DEV}" netns "${NS2}"`

			`# Bring the devices up`
			`ip -netns "${NS1}" link set "${DEV}" up`
			`ip -netns "${NS2}" link set "${DEV}" up`

			`# Set fixed MAC addresses on the devices`
			`ip -netns "${NS1}" link set dev "${DEV}" address 02:02:02:02:02:02`
			`ip -netns "${NS2}" link set dev "${DEV}" address 06:06:06:06:06:06`

			`# Add fixed IP addresses to the devices`
			`ip -netns "${NS1}" addr add 192.168.1.1/24 dev "${DEV}"`
			`ip -netns "${NS2}" addr add 192.168.1.2/24 dev "${DEV}"`
			`ip -netns "${NS1}" addr add fd::1/64 dev "${DEV}" nodad`
			`ip -netns "${NS2}" addr add fd::2/64 dev "${DEV}" nodad`

			`do_test() {`
			`local readonly IP="$1"`
			`local readonly CLOCK="$2"`
			`local readonly TXARGS="$3"`
			`local readonly RXARGS="$4"`

			`if [[ "${IP}" == "4" ]]; then`
			`local readonly SADDR="${SADDR4}"`
			`local readonly DADDR="${DADDR4}"`
			`elif [[ "${IP}" == "6" ]]; then`
			`local readonly SADDR="${SADDR6}"`
			`local readonly DADDR="${DADDR6}"`
			`else`
			`echo "Invalid IP version ${IP}"`
			`exit 1`
selftests/net: make so_txtime more robust to timer variance The SO_TXTIME test depends on accurate timers. In some virtualized environments the test has been reported to be flaky. This is easily reproduced by disabling kvm acceleration in Qemu. Allow greater variance in a run and retry to further reduce flakiness. Observed errors are one of two kinds: either the packet arrives too early or late at recv(), or it was dropped in the qdisc itself and the recv() call times out. In the latter case, the qdisc queues a notification to the error queue of the send socket. Also explicitly report this cause. Link: https://lore.kernel.org/netdev/CA+FuTSdYOnJCsGuj43xwV1jxvYsaoa_LzHQF9qMyhrkLrivxKw@mail.gmail.com Reported-by: Naresh Kamboju <naresh.kamboju@linaro.org> Signed-off-by: Willem de Bruijn <willemb@google.com> Signed-off-by: Jakub Kicinski <jakub.kicinski@netronome.com> 2019-12-12 16:36:46 +00:00			`fi`

selftests/net: so_txtime multi-host support SO_TXTIME hardware offload requires testing across devices, either between machines or separate network namespaces. Split up SO_TXTIME test into tx and rx modes, so traffic can be sent from one process to another. Create a veth-pair on different namespaces and bind each process to an end point via [-S]ource and [-D]estination parameters. Optional start [-t]ime parameter can be passed to synchronize the test across the hosts (with synchorinzed clocks). Signed-off-by: Carlos Llamas <cmllamas@google.com> Reviewed-by: Willem de Bruijn <willemb@google.com> Signed-off-by: David S. Miller <davem@davemloft.net> 2021-04-01 00:40:20 +00:00			`local readonly START="$(date +%s%N --date="+ 0.1 seconds")"`
			`ip netns exec "${NS2}" "${BIN}" -"${IP}" -c "${CLOCK}" -t "${START}" -S "${SADDR}" -D "${DADDR}" "${RXARGS}" -r &`
			`ip netns exec "${NS1}" "${BIN}" -"${IP}" -c "${CLOCK}" -t "${START}" -S "${SADDR}" -D "${DADDR}" "${TXARGS}"`
			`wait "$!"`
			`}`
selftests/net: SO_TXTIME with ETF and FQ The SO_TXTIME API enables packet tranmission with delayed delivery. This is currently supported by the ETF and FQ packet schedulers. Evaluate the interface with both schedulers. Install the scheduler and send a variety of packets streams: without delay, with one delayed packet, with multiple ordered delays and with reordering. Verify that packets are released by the scheduler in expected order. The ETF qdisc requires a timestamp in the future on every packet. It needs a delay on the qdisc else the packet is dropped on dequeue for having a delivery time in the past. The test value is experimentally derived. ETF requires clock_id CLOCK_TAI. It checks this base and drops for non-conformance. The FQ qdisc expects clock_id CLOCK_MONOTONIC, the base used by TCP as of commit fb420d5d91c1 ("tcp/fq: move back to CLOCK_MONOTONIC"). Within a flow there is an expecation of ordered delivery, as shown by delivery times of test 4. The FQ qdisc does not require all packets to have timestamps and does not drop for non-conformance. The large (msec) delays are chosen to avoid flakiness. Output: SO_TXTIME ipv6 clock monotonic payload:a delay:28 expected:0 (us) SO_TXTIME ipv4 clock monotonic payload:a delay:38 expected:0 (us) SO_TXTIME ipv6 clock monotonic payload:a delay:40 expected:0 (us) SO_TXTIME ipv4 clock monotonic payload:a delay:33 expected:0 (us) SO_TXTIME ipv6 clock monotonic payload:a delay:10120 expected:10000 (us) SO_TXTIME ipv4 clock monotonic payload:a delay:10102 expected:10000 (us) [.. etc ..] OK. All tests passed Changes v1->v2: update commit message output Signed-off-by: Willem de Bruijn <willemb@google.com> Acked-by: Eric Dumazet <edumazet@google.com> Acked-by: Vinicius Costa Gomes <vinicius.gomes@intel.com> Signed-off-by: David S. Miller <davem@davemloft.net> 2019-05-23 17:48:46 +00:00
selftests/net: so_txtime multi-host support SO_TXTIME hardware offload requires testing across devices, either between machines or separate network namespaces. Split up SO_TXTIME test into tx and rx modes, so traffic can be sent from one process to another. Create a veth-pair on different namespaces and bind each process to an end point via [-S]ource and [-D]estination parameters. Optional start [-t]ime parameter can be passed to synchronize the test across the hosts (with synchorinzed clocks). Signed-off-by: Carlos Llamas <cmllamas@google.com> Reviewed-by: Willem de Bruijn <willemb@google.com> Signed-off-by: David S. Miller <davem@davemloft.net> 2021-04-01 00:40:20 +00:00			`ip netns exec "${NS1}" tc qdisc add dev "${DEV}" root fq`
			`do_test 4 mono a,-1 a,-1`
			`do_test 6 mono a,0 a,0`
			`do_test 6 mono a,10 a,10`
			`do_test 4 mono a,10,b,20 a,10,b,20`
			`do_test 6 mono a,20,b,10 b,20,a,20`
selftests/net: SO_TXTIME with ETF and FQ The SO_TXTIME API enables packet tranmission with delayed delivery. This is currently supported by the ETF and FQ packet schedulers. Evaluate the interface with both schedulers. Install the scheduler and send a variety of packets streams: without delay, with one delayed packet, with multiple ordered delays and with reordering. Verify that packets are released by the scheduler in expected order. The ETF qdisc requires a timestamp in the future on every packet. It needs a delay on the qdisc else the packet is dropped on dequeue for having a delivery time in the past. The test value is experimentally derived. ETF requires clock_id CLOCK_TAI. It checks this base and drops for non-conformance. The FQ qdisc expects clock_id CLOCK_MONOTONIC, the base used by TCP as of commit fb420d5d91c1 ("tcp/fq: move back to CLOCK_MONOTONIC"). Within a flow there is an expecation of ordered delivery, as shown by delivery times of test 4. The FQ qdisc does not require all packets to have timestamps and does not drop for non-conformance. The large (msec) delays are chosen to avoid flakiness. Output: SO_TXTIME ipv6 clock monotonic payload:a delay:28 expected:0 (us) SO_TXTIME ipv4 clock monotonic payload:a delay:38 expected:0 (us) SO_TXTIME ipv6 clock monotonic payload:a delay:40 expected:0 (us) SO_TXTIME ipv4 clock monotonic payload:a delay:33 expected:0 (us) SO_TXTIME ipv6 clock monotonic payload:a delay:10120 expected:10000 (us) SO_TXTIME ipv4 clock monotonic payload:a delay:10102 expected:10000 (us) [.. etc ..] OK. All tests passed Changes v1->v2: update commit message output Signed-off-by: Willem de Bruijn <willemb@google.com> Acked-by: Eric Dumazet <edumazet@google.com> Acked-by: Vinicius Costa Gomes <vinicius.gomes@intel.com> Signed-off-by: David S. Miller <davem@davemloft.net> 2019-05-23 17:48:46 +00:00
selftests/net: so_txtime multi-host support SO_TXTIME hardware offload requires testing across devices, either between machines or separate network namespaces. Split up SO_TXTIME test into tx and rx modes, so traffic can be sent from one process to another. Create a veth-pair on different namespaces and bind each process to an end point via [-S]ource and [-D]estination parameters. Optional start [-t]ime parameter can be passed to synchronize the test across the hosts (with synchorinzed clocks). Signed-off-by: Carlos Llamas <cmllamas@google.com> Reviewed-by: Willem de Bruijn <willemb@google.com> Signed-off-by: David S. Miller <davem@davemloft.net> 2021-04-01 00:40:20 +00:00			`if ip netns exec "${NS1}" tc qdisc replace dev "${DEV}" root etf clockid CLOCK_TAI delta 400000; then`
			`! do_test 4 tai a,-1 a,-1`
			`! do_test 6 tai a,0 a,0`
			`do_test 6 tai a,10 a,10`
			`do_test 4 tai a,10,b,20 a,10,b,20`
			`do_test 6 tai a,20,b,10 b,10,a,20`
selftests/net: SO_TXTIME with ETF and FQ The SO_TXTIME API enables packet tranmission with delayed delivery. This is currently supported by the ETF and FQ packet schedulers. Evaluate the interface with both schedulers. Install the scheduler and send a variety of packets streams: without delay, with one delayed packet, with multiple ordered delays and with reordering. Verify that packets are released by the scheduler in expected order. The ETF qdisc requires a timestamp in the future on every packet. It needs a delay on the qdisc else the packet is dropped on dequeue for having a delivery time in the past. The test value is experimentally derived. ETF requires clock_id CLOCK_TAI. It checks this base and drops for non-conformance. The FQ qdisc expects clock_id CLOCK_MONOTONIC, the base used by TCP as of commit fb420d5d91c1 ("tcp/fq: move back to CLOCK_MONOTONIC"). Within a flow there is an expecation of ordered delivery, as shown by delivery times of test 4. The FQ qdisc does not require all packets to have timestamps and does not drop for non-conformance. The large (msec) delays are chosen to avoid flakiness. Output: SO_TXTIME ipv6 clock monotonic payload:a delay:28 expected:0 (us) SO_TXTIME ipv4 clock monotonic payload:a delay:38 expected:0 (us) SO_TXTIME ipv6 clock monotonic payload:a delay:40 expected:0 (us) SO_TXTIME ipv4 clock monotonic payload:a delay:33 expected:0 (us) SO_TXTIME ipv6 clock monotonic payload:a delay:10120 expected:10000 (us) SO_TXTIME ipv4 clock monotonic payload:a delay:10102 expected:10000 (us) [.. etc ..] OK. All tests passed Changes v1->v2: update commit message output Signed-off-by: Willem de Bruijn <willemb@google.com> Acked-by: Eric Dumazet <edumazet@google.com> Acked-by: Vinicius Costa Gomes <vinicius.gomes@intel.com> Signed-off-by: David S. Miller <davem@davemloft.net> 2019-05-23 17:48:46 +00:00			`else`
			`echo "tc ($(tc -V)) does not support qdisc etf. skipping"`
			`fi`

			`echo OK. All tests passed`