--- /dev/null
+#!/bin/bash
+# SPDX-License-Identifier: GPL-2.0
+# Copyright 2021-2022 NXP
+
+# Note: On LS1028A, in lack of enough user ports, this setup requires patching
+# the device tree to use the second CPU port as a user port
+
+WAIT_TIME=1
+NUM_NETIFS=4
+STABLE_MAC_ADDRS=yes
+NETIF_CREATE=no
+lib_dir=$(dirname $0)/../../../net/forwarding
+source $lib_dir/tc_common.sh
+source $lib_dir/lib.sh
+source $lib_dir/tsn_lib.sh
+
+UDS_ADDRESS_H1="/var/run/ptp4l_h1"
+UDS_ADDRESS_SWP1="/var/run/ptp4l_swp1"
+
+# Tunables
+NUM_PKTS=1000
+STREAM_VID=100
+STREAM_PRIO=6
+# Use a conservative cycle of 10 ms to allow the test to still pass when the
+# kernel has some extra overhead like lockdep etc
+CYCLE_TIME_NS=10000000
+# Create two Gate Control List entries, one OPEN and one CLOSE, of equal
+# durations
+GATE_DURATION_NS=$((${CYCLE_TIME_NS} / 2))
+# Give 2/3 of the cycle time to user space and 1/3 to the kernel
+FUDGE_FACTOR=$((${CYCLE_TIME_NS} / 3))
+# Shift the isochron base time by half the gate time, so that packets are
+# always received by swp1 close to the middle of the time slot, to minimize
+# inaccuracies due to network sync
+SHIFT_TIME_NS=$((${GATE_DURATION_NS} / 2))
+
+h1=${NETIFS[p1]}
+swp1=${NETIFS[p2]}
+swp2=${NETIFS[p3]}
+h2=${NETIFS[p4]}
+
+H1_IPV4="192.0.2.1"
+H2_IPV4="192.0.2.2"
+H1_IPV6="2001:db8:1::1"
+H2_IPV6="2001:db8:1::2"
+
+# Chain number exported by the ocelot driver for
+# Per-Stream Filtering and Policing filters
+PSFP()
+{
+ echo 30000
+}
+
+psfp_chain_create()
+{
+ local if_name=$1
+
+ tc qdisc add dev $if_name clsact
+
+ tc filter add dev $if_name ingress chain 0 pref 49152 flower \
+ skip_sw action goto chain $(PSFP)
+}
+
+psfp_chain_destroy()
+{
+ local if_name=$1
+
+ tc qdisc del dev $if_name clsact
+}
+
+psfp_filter_check()
+{
+ local expected=$1
+ local packets=""
+ local drops=""
+ local stats=""
+
+ stats=$(tc -j -s filter show dev ${swp1} ingress chain $(PSFP) pref 1)
+ packets=$(echo ${stats} | jq ".[1].options.actions[].stats.packets")
+ drops=$(echo ${stats} | jq ".[1].options.actions[].stats.drops")
+
+ if ! [ "${packets}" = "${expected}" ]; then
+ printf "Expected filter to match on %d packets but matched on %d instead\n" \
+ "${expected}" "${packets}"
+ fi
+
+ echo "Hardware filter reports ${drops} drops"
+}
+
+h1_create()
+{
+ simple_if_init $h1 $H1_IPV4/24 $H1_IPV6/64
+}
+
+h1_destroy()
+{
+ simple_if_fini $h1 $H1_IPV4/24 $H1_IPV6/64
+}
+
+h2_create()
+{
+ simple_if_init $h2 $H2_IPV4/24 $H2_IPV6/64
+}
+
+h2_destroy()
+{
+ simple_if_fini $h2 $H2_IPV4/24 $H2_IPV6/64
+}
+
+switch_create()
+{
+ local h2_mac_addr=$(mac_get $h2)
+
+ ip link set ${swp1} up
+ ip link set ${swp2} up
+
+ ip link add br0 type bridge vlan_filtering 1
+ ip link set ${swp1} master br0
+ ip link set ${swp2} master br0
+ ip link set br0 up
+
+ bridge vlan add dev ${swp2} vid ${STREAM_VID}
+ bridge vlan add dev ${swp1} vid ${STREAM_VID}
+ # PSFP on Ocelot requires the filter to also be added to the bridge
+ # FDB, and not be removed
+ bridge fdb add dev ${swp2} \
+ ${h2_mac_addr} vlan ${STREAM_VID} static master
+
+ psfp_chain_create ${swp1}
+
+ tc filter add dev ${swp1} ingress chain $(PSFP) pref 1 \
+ protocol 802.1Q flower skip_sw \
+ dst_mac ${h2_mac_addr} vlan_id ${STREAM_VID} \
+ action gate base-time 0.000000000 \
+ sched-entry OPEN ${GATE_DURATION_NS} -1 -1 \
+ sched-entry CLOSE ${GATE_DURATION_NS} -1 -1
+}
+
+switch_destroy()
+{
+ psfp_chain_destroy ${swp1}
+ ip link del br0
+}
+
+txtime_setup()
+{
+ local if_name=$1
+
+ tc qdisc add dev ${if_name} clsact
+ # Classify PTP on TC 7 and isochron on TC 6
+ tc filter add dev ${if_name} egress protocol 0x88f7 \
+ flower action skbedit priority 7
+ tc filter add dev ${if_name} egress protocol 802.1Q \
+ flower vlan_ethtype 0xdead action skbedit priority 6
+ tc qdisc add dev ${if_name} handle 100: parent root mqprio num_tc 8 \
+ queues 1@0 1@1 1@2 1@3 1@4 1@5 1@6 1@7 \
+ map 0 1 2 3 4 5 6 7 \
+ hw 1
+ # Set up TC 6 for SO_TXTIME. tc-mqprio queues count from 1.
+ tc qdisc replace dev ${if_name} parent 100:$((${STREAM_PRIO} + 1)) etf \
+ clockid CLOCK_TAI offload delta ${FUDGE_FACTOR}
+}
+
+txtime_cleanup()
+{
+ local if_name=$1
+
+ tc qdisc del dev ${if_name} root
+ tc qdisc del dev ${if_name} clsact
+}
+
+setup_prepare()
+{
+ vrf_prepare
+
+ h1_create
+ h2_create
+ switch_create
+
+ txtime_setup ${h1}
+
+ # Set up swp1 as a master PHC for h1, synchronized to the local
+ # CLOCK_REALTIME.
+ phc2sys_start ${swp1} ${UDS_ADDRESS_SWP1}
+
+ # Assumption true for LS1028A: h1 and h2 use the same PHC. So by
+ # synchronizing h1 to swp1 via PTP, h2 is also implicitly synchronized
+ # to swp1 (and both to CLOCK_REALTIME).
+ ptp4l_start ${h1} true ${UDS_ADDRESS_H1}
+ ptp4l_start ${swp1} false ${UDS_ADDRESS_SWP1}
+
+ # Make sure there are no filter matches at the beginning of the test
+ psfp_filter_check 0
+}
+
+cleanup()
+{
+ pre_cleanup
+
+ ptp4l_stop ${swp1}
+ ptp4l_stop ${h1}
+ phc2sys_stop
+ isochron_recv_stop
+
+ txtime_cleanup ${h1}
+
+ h2_destroy
+ h1_destroy
+ switch_destroy
+
+ vrf_cleanup
+}
+
+debug_incorrectly_dropped_packets()
+{
+ local isochron_dat=$1
+ local dropped_seqids
+ local seqid
+
+ echo "Packets incorrectly dropped:"
+
+ dropped_seqids=$(isochron report \
+ --input-file "${isochron_dat}" \
+ --printf-format "%u RX hw %T\n" \
+ --printf-args "qR" | \
+ grep 'RX hw 0.000000000' | \
+ awk '{print $1}')
+
+ for seqid in ${dropped_seqids}; do
+ isochron report \
+ --input-file "${isochron_dat}" \
+ --start ${seqid} --stop ${seqid} \
+ --printf-format "seqid %u scheduled for %T, HW TX timestamp %T\n" \
+ --printf-args "qST"
+ done
+}
+
+debug_incorrectly_received_packets()
+{
+ local isochron_dat=$1
+
+ echo "Packets incorrectly received:"
+
+ isochron report \
+ --input-file "${isochron_dat}" \
+ --printf-format "seqid %u scheduled for %T, HW TX timestamp %T, HW RX timestamp %T\n" \
+ --printf-args "qSTR" |
+ grep -v 'HW RX timestamp 0.000000000'
+}
+
+run_test()
+{
+ local base_time=$1
+ local expected=$2
+ local test_name=$3
+ local debug=$4
+ local isochron_dat="$(mktemp)"
+ local extra_args=""
+ local received
+
+ isochron_do \
+ "${h1}" \
+ "${h2}" \
+ "${UDS_ADDRESS_H1}" \
+ "" \
+ "${base_time}" \
+ "${CYCLE_TIME_NS}" \
+ "${SHIFT_TIME_NS}" \
+ "${NUM_PKTS}" \
+ "${STREAM_VID}" \
+ "${STREAM_PRIO}" \
+ "" \
+ "${isochron_dat}"
+
+ # Count all received packets by looking at the non-zero RX timestamps
+ received=$(isochron report \
+ --input-file "${isochron_dat}" \
+ --printf-format "%u\n" --printf-args "R" | \
+ grep -w -v '0' | wc -l)
+
+ if [ "${received}" = "${expected}" ]; then
+ RET=0
+ else
+ RET=1
+ echo "Expected isochron to receive ${expected} packets but received ${received}"
+ fi
+
+ log_test "${test_name}"
+
+ if [ "$RET" = "1" ]; then
+ ${debug} "${isochron_dat}"
+ fi
+
+ rm ${isochron_dat} 2> /dev/null
+}
+
+test_gate_in_band()
+{
+ # Send packets in-band with the OPEN gate entry
+ run_test 0.000000000 ${NUM_PKTS} "In band" \
+ debug_incorrectly_dropped_packets
+
+ psfp_filter_check ${NUM_PKTS}
+}
+
+test_gate_out_of_band()
+{
+ # Send packets in-band with the CLOSE gate entry
+ run_test 0.005000000 0 "Out of band" \
+ debug_incorrectly_received_packets
+
+ psfp_filter_check $((2 * ${NUM_PKTS}))
+}
+
+trap cleanup EXIT
+
+ALL_TESTS="
+ test_gate_in_band
+ test_gate_out_of_band
+"
+
+setup_prepare
+setup_wait
+
+tests_run
+
+exit $EXIT_STATUS
--- /dev/null
+#!/bin/bash
+# SPDX-License-Identifier: GPL-2.0
+# Copyright 2021-2022 NXP
+
+REQUIRE_ISOCHRON=${REQUIRE_ISOCHRON:=yes}
+REQUIRE_LINUXPTP=${REQUIRE_LINUXPTP:=yes}
+
+# Tunables
+UTC_TAI_OFFSET=37
+ISOCHRON_CPU=1
+
+if [[ "$REQUIRE_ISOCHRON" = "yes" ]]; then
+ # https://github.com/vladimiroltean/tsn-scripts
+ # WARNING: isochron versions pre-1.0 are unstable,
+ # always use the latest version
+ require_command isochron
+fi
+if [[ "$REQUIRE_LINUXPTP" = "yes" ]]; then
+ require_command phc2sys
+ require_command ptp4l
+fi
+
+phc2sys_start()
+{
+ local if_name=$1
+ local uds_address=$2
+ local extra_args=""
+
+ if ! [ -z "${uds_address}" ]; then
+ extra_args="${extra_args} -z ${uds_address}"
+ fi
+
+ phc2sys_log="$(mktemp)"
+
+ chrt -f 10 phc2sys -m \
+ -c ${if_name} \
+ -s CLOCK_REALTIME \
+ -O ${UTC_TAI_OFFSET} \
+ --step_threshold 0.00002 \
+ --first_step_threshold 0.00002 \
+ ${extra_args} \
+ > "${phc2sys_log}" 2>&1 &
+ phc2sys_pid=$!
+
+ echo "phc2sys logs to ${phc2sys_log} and has pid ${phc2sys_pid}"
+
+ sleep 1
+}
+
+phc2sys_stop()
+{
+ { kill ${phc2sys_pid} && wait ${phc2sys_pid}; } 2> /dev/null
+ rm "${phc2sys_log}" 2> /dev/null
+}
+
+ptp4l_start()
+{
+ local if_name=$1
+ local slave_only=$2
+ local uds_address=$3
+ local log="ptp4l_log_${if_name}"
+ local pid="ptp4l_pid_${if_name}"
+ local extra_args=""
+
+ if [ "${slave_only}" = true ]; then
+ extra_args="${extra_args} -s"
+ fi
+
+ # declare dynamic variables ptp4l_log_${if_name} and ptp4l_pid_${if_name}
+ # as global, so that they can be referenced later
+ declare -g "${log}=$(mktemp)"
+
+ chrt -f 10 ptp4l -m -2 -P \
+ -i ${if_name} \
+ --step_threshold 0.00002 \
+ --first_step_threshold 0.00002 \
+ --tx_timestamp_timeout 100 \
+ --uds_address="${uds_address}" \
+ ${extra_args} \
+ > "${!log}" 2>&1 &
+ declare -g "${pid}=$!"
+
+ echo "ptp4l for interface ${if_name} logs to ${!log} and has pid ${!pid}"
+
+ sleep 1
+}
+
+ptp4l_stop()
+{
+ local if_name=$1
+ local log="ptp4l_log_${if_name}"
+ local pid="ptp4l_pid_${if_name}"
+
+ { kill ${!pid} && wait ${!pid}; } 2> /dev/null
+ rm "${!log}" 2> /dev/null
+}
+
+cpufreq_max()
+{
+ local cpu=$1
+ local freq="cpu${cpu}_freq"
+ local governor="cpu${cpu}_governor"
+
+ # Kernel may be compiled with CONFIG_CPU_FREQ disabled
+ if ! [ -d /sys/bus/cpu/devices/cpu${cpu}/cpufreq ]; then
+ return
+ fi
+
+ # declare dynamic variables cpu${cpu}_freq and cpu${cpu}_governor as
+ # global, so they can be referenced later
+ declare -g "${freq}=$(cat /sys/bus/cpu/devices/cpu${cpu}/cpufreq/scaling_min_freq)"
+ declare -g "${governor}=$(cat /sys/bus/cpu/devices/cpu${cpu}/cpufreq/scaling_governor)"
+
+ cat /sys/bus/cpu/devices/cpu${cpu}/cpufreq/scaling_max_freq > \
+ /sys/bus/cpu/devices/cpu${cpu}/cpufreq/scaling_min_freq
+ echo -n "performance" > \
+ /sys/bus/cpu/devices/cpu${cpu}/cpufreq/scaling_governor
+}
+
+cpufreq_restore()
+{
+ local cpu=$1
+ local freq="cpu${cpu}_freq"
+ local governor="cpu${cpu}_governor"
+
+ if ! [ -d /sys/bus/cpu/devices/cpu${cpu}/cpufreq ]; then
+ return
+ fi
+
+ echo "${!freq}" > /sys/bus/cpu/devices/cpu${cpu}/cpufreq/scaling_min_freq
+ echo -n "${!governor}" > \
+ /sys/bus/cpu/devices/cpu${cpu}/cpufreq/scaling_governor
+}
+
+isochron_recv_start()
+{
+ local if_name=$1
+ local uds=$2
+ local extra_args=$3
+
+ if ! [ -z "${uds}" ]; then
+ extra_args="--unix-domain-socket ${uds}"
+ fi
+
+ isochron rcv \
+ --interface ${if_name} \
+ --sched-priority 98 \
+ --sched-fifo \
+ --utc-tai-offset ${UTC_TAI_OFFSET} \
+ --quiet \
+ ${extra_args} & \
+ isochron_pid=$!
+
+ sleep 1
+}
+
+isochron_recv_stop()
+{
+ { kill ${isochron_pid} && wait ${isochron_pid}; } 2> /dev/null
+}
+
+isochron_do()
+{
+ local sender_if_name=$1; shift
+ local receiver_if_name=$1; shift
+ local sender_uds=$1; shift
+ local receiver_uds=$1; shift
+ local base_time=$1; shift
+ local cycle_time=$1; shift
+ local shift_time=$1; shift
+ local num_pkts=$1; shift
+ local vid=$1; shift
+ local priority=$1; shift
+ local dst_ip=$1; shift
+ local isochron_dat=$1; shift
+ local extra_args=""
+ local receiver_extra_args=""
+ local vrf="$(master_name_get ${sender_if_name})"
+ local use_l2="true"
+
+ if ! [ -z "${dst_ip}" ]; then
+ use_l2="false"
+ fi
+
+ if ! [ -z "${vrf}" ]; then
+ dst_ip="${dst_ip}%${vrf}"
+ fi
+
+ if ! [ -z "${vid}" ]; then
+ vid="--vid=${vid}"
+ fi
+
+ if [ -z "${receiver_uds}" ]; then
+ extra_args="${extra_args} --omit-remote-sync"
+ fi
+
+ if ! [ -z "${shift_time}" ]; then
+ extra_args="${extra_args} --shift-time=${shift_time}"
+ fi
+
+ if [ "${use_l2}" = "true" ]; then
+ extra_args="${extra_args} --l2 --etype=0xdead ${vid}"
+ receiver_extra_args="--l2 --etype=0xdead"
+ else
+ extra_args="${extra_args} --l4 --ip-destination=${dst_ip}"
+ receiver_extra_args="--l4"
+ fi
+
+ cpufreq_max ${ISOCHRON_CPU}
+
+ isochron_recv_start "${h2}" "${receiver_uds}" "${receiver_extra_args}"
+
+ isochron send \
+ --interface ${sender_if_name} \
+ --unix-domain-socket ${sender_uds} \
+ --priority ${priority} \
+ --base-time ${base_time} \
+ --cycle-time ${cycle_time} \
+ --num-frames ${num_pkts} \
+ --frame-size 64 \
+ --txtime \
+ --utc-tai-offset ${UTC_TAI_OFFSET} \
+ --cpu-mask $((1 << ${ISOCHRON_CPU})) \
+ --sched-fifo \
+ --sched-priority 98 \
+ --client 127.0.0.1 \
+ --sync-threshold 5000 \
+ --output-file ${isochron_dat} \
+ ${extra_args} \
+ --quiet
+
+ isochron_recv_stop
+
+ cpufreq_restore ${ISOCHRON_CPU}
+}
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