295 lines
7.6 KiB
Bash
Executable File
295 lines
7.6 KiB
Bash
Executable File
#!/bin/bash
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# SPDX-License-Identifier: GPL-2.0
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# Double quotes to prevent globbing and word splitting is recommended in new
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# code but we accept it, especially because there were too many before having
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# address all other issues detected by shellcheck.
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#shellcheck disable=SC2086
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. "$(dirname "${0}")/mptcp_lib.sh"
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ns1=""
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ns2=""
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ns3=""
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capture=false
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timeout_poll=30
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timeout_test=$((timeout_poll * 2 + 1))
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# a bit more space: because we have more to display
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MPTCP_LIB_TEST_FORMAT="%02u %-60s"
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ret=0
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bail=0
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slack=50
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large=""
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small=""
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sout=""
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cout=""
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capout=""
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size=0
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usage() {
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echo "Usage: $0 [ -b ] [ -c ] [ -d ]"
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echo -e "\t-b: bail out after first error, otherwise runs al testcases"
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echo -e "\t-c: capture packets for each test using tcpdump (default: no capture)"
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echo -e "\t-d: debug this script"
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}
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# This function is used in the cleanup trap
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#shellcheck disable=SC2317
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cleanup()
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{
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rm -f "$cout" "$sout"
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rm -f "$large" "$small"
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rm -f "$capout"
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mptcp_lib_ns_exit "${ns1}" "${ns2}" "${ns3}"
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}
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mptcp_lib_check_mptcp
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mptcp_lib_check_tools ip
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# "$ns1" ns2 ns3
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# ns1eth1 ns2eth1 ns2eth3 ns3eth1
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# netem
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# ns1eth2 ns2eth2
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# netem
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setup()
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{
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large=$(mktemp)
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small=$(mktemp)
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sout=$(mktemp)
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cout=$(mktemp)
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capout=$(mktemp)
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size=$((2 * 2048 * 4096))
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dd if=/dev/zero of=$small bs=4096 count=20 >/dev/null 2>&1
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dd if=/dev/zero of=$large bs=4096 count=$((size / 4096)) >/dev/null 2>&1
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trap cleanup EXIT
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mptcp_lib_ns_init ns1 ns2 ns3
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ip link add ns1eth1 netns "$ns1" type veth peer name ns2eth1 netns "$ns2"
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ip link add ns1eth2 netns "$ns1" type veth peer name ns2eth2 netns "$ns2"
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ip link add ns2eth3 netns "$ns2" type veth peer name ns3eth1 netns "$ns3"
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ip -net "$ns1" addr add 10.0.1.1/24 dev ns1eth1
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ip -net "$ns1" addr add dead:beef:1::1/64 dev ns1eth1 nodad
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ip -net "$ns1" link set ns1eth1 up mtu 1500
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ip -net "$ns1" route add default via 10.0.1.2
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ip -net "$ns1" route add default via dead:beef:1::2
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ip -net "$ns1" addr add 10.0.2.1/24 dev ns1eth2
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ip -net "$ns1" addr add dead:beef:2::1/64 dev ns1eth2 nodad
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ip -net "$ns1" link set ns1eth2 up mtu 1500
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ip -net "$ns1" route add default via 10.0.2.2 metric 101
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ip -net "$ns1" route add default via dead:beef:2::2 metric 101
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ip netns exec "$ns1" ./pm_nl_ctl limits 1 1
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ip netns exec "$ns1" ./pm_nl_ctl add 10.0.2.1 dev ns1eth2 flags subflow
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ip -net "$ns2" addr add 10.0.1.2/24 dev ns2eth1
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ip -net "$ns2" addr add dead:beef:1::2/64 dev ns2eth1 nodad
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ip -net "$ns2" link set ns2eth1 up mtu 1500
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ip -net "$ns2" addr add 10.0.2.2/24 dev ns2eth2
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ip -net "$ns2" addr add dead:beef:2::2/64 dev ns2eth2 nodad
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ip -net "$ns2" link set ns2eth2 up mtu 1500
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ip -net "$ns2" addr add 10.0.3.2/24 dev ns2eth3
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ip -net "$ns2" addr add dead:beef:3::2/64 dev ns2eth3 nodad
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ip -net "$ns2" link set ns2eth3 up mtu 1500
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ip netns exec "$ns2" sysctl -q net.ipv4.ip_forward=1
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ip netns exec "$ns2" sysctl -q net.ipv6.conf.all.forwarding=1
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ip -net "$ns3" addr add 10.0.3.3/24 dev ns3eth1
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ip -net "$ns3" addr add dead:beef:3::3/64 dev ns3eth1 nodad
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ip -net "$ns3" link set ns3eth1 up mtu 1500
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ip -net "$ns3" route add default via 10.0.3.2
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ip -net "$ns3" route add default via dead:beef:3::2
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ip netns exec "$ns3" ./pm_nl_ctl limits 1 1
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# debug build can slow down measurably the test program
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# we use quite tight time limit on the run-time, to ensure
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# maximum B/W usage.
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# Use kmemleak/lockdep/kasan/prove_locking presence as a rough
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# estimate for this being a debug kernel and increase the
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# maximum run-time accordingly. Observed run times for CI builds
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# running selftests, including kbuild, were used to determine the
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# amount of time to add.
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grep -q ' kmemleak_init$\| lockdep_init$\| kasan_init$\| prove_locking$' /proc/kallsyms && slack=$((slack+550))
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}
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do_transfer()
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{
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local cin=$1
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local sin=$2
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local max_time=$3
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local port
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port=$((10000+MPTCP_LIB_TEST_COUNTER))
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:> "$cout"
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:> "$sout"
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:> "$capout"
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if $capture; then
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local capuser
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local rndh="${ns1:4}"
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if [ -z $SUDO_USER ] ; then
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capuser=""
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else
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capuser="-Z $SUDO_USER"
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fi
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local capfile="${rndh}-${port}"
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local capopt="-i any -s 65535 -B 32768 ${capuser}"
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ip netns exec ${ns3} tcpdump ${capopt} -w "${capfile}-listener.pcap" >> "${capout}" 2>&1 &
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local cappid_listener=$!
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ip netns exec ${ns1} tcpdump ${capopt} -w "${capfile}-connector.pcap" >> "${capout}" 2>&1 &
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local cappid_connector=$!
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sleep 1
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fi
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timeout ${timeout_test} \
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ip netns exec ${ns3} \
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./mptcp_connect -jt ${timeout_poll} -l -p $port -T $max_time \
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0.0.0.0 < "$sin" > "$sout" &
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local spid=$!
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mptcp_lib_wait_local_port_listen "${ns3}" "${port}"
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timeout ${timeout_test} \
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ip netns exec ${ns1} \
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./mptcp_connect -jt ${timeout_poll} -p $port -T $max_time \
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10.0.3.3 < "$cin" > "$cout" &
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local cpid=$!
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wait $cpid
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local retc=$?
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wait $spid
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local rets=$?
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if $capture; then
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sleep 1
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kill ${cappid_listener}
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kill ${cappid_connector}
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fi
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cmp $sin $cout > /dev/null 2>&1
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local cmps=$?
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cmp $cin $sout > /dev/null 2>&1
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local cmpc=$?
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printf "%-16s" " max $max_time "
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if [ $retc -eq 0 ] && [ $rets -eq 0 ] && \
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[ $cmpc -eq 0 ] && [ $cmps -eq 0 ]; then
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mptcp_lib_pr_ok
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cat "$capout"
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return 0
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fi
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mptcp_lib_pr_fail
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echo "client exit code $retc, server $rets" 1>&2
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echo -e "\nnetns ${ns3} socket stat for $port:" 1>&2
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ip netns exec ${ns3} ss -nita 1>&2 -o "sport = :$port"
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echo -e "\nnetns ${ns1} socket stat for $port:" 1>&2
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ip netns exec ${ns1} ss -nita 1>&2 -o "dport = :$port"
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ls -l $sin $cout
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ls -l $cin $sout
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cat "$capout"
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return 1
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}
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run_test()
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{
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local rate1=$1
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local rate2=$2
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local delay1=$3
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local delay2=$4
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local lret
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local dev
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shift 4
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local msg=$*
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[ $delay1 -gt 0 ] && delay1="delay $delay1" || delay1=""
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[ $delay2 -gt 0 ] && delay2="delay $delay2" || delay2=""
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for dev in ns1eth1 ns1eth2; do
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tc -n $ns1 qdisc del dev $dev root >/dev/null 2>&1
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done
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for dev in ns2eth1 ns2eth2; do
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tc -n $ns2 qdisc del dev $dev root >/dev/null 2>&1
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done
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tc -n $ns1 qdisc add dev ns1eth1 root netem rate ${rate1}mbit $delay1
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tc -n $ns1 qdisc add dev ns1eth2 root netem rate ${rate2}mbit $delay2
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tc -n $ns2 qdisc add dev ns2eth1 root netem rate ${rate1}mbit $delay1
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tc -n $ns2 qdisc add dev ns2eth2 root netem rate ${rate2}mbit $delay2
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# time is measured in ms, account for transfer size, aggregated link speed
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# and header overhead (10%)
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# ms byte -> bit 10% mbit -> kbit -> bit 10%
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local time=$((1000 * size * 8 * 10 / ((rate1 + rate2) * 1000 * 1000 * 9) ))
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# mptcp_connect will do some sleeps to allow the mp_join handshake
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# completion (see mptcp_connect): 200ms on each side, add some slack
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time=$((time + 400 + slack))
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mptcp_lib_print_title "$msg"
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do_transfer $small $large $time
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lret=$?
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mptcp_lib_result_code "${lret}" "${msg}"
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if [ $lret -ne 0 ]; then
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ret=$lret
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[ $bail -eq 0 ] || exit $ret
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fi
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msg+=" - reverse direction"
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mptcp_lib_print_title "${msg}"
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do_transfer $large $small $time
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lret=$?
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mptcp_lib_result_code "${lret}" "${msg}"
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if [ $lret -ne 0 ]; then
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ret=$lret
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[ $bail -eq 0 ] || exit $ret
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fi
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}
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while getopts "bcdh" option;do
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case "$option" in
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"h")
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usage $0
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exit ${KSFT_PASS}
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;;
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"b")
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bail=1
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;;
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"c")
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capture=true
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;;
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"d")
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set -x
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;;
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"?")
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usage $0
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exit ${KSFT_FAIL}
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;;
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esac
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done
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setup
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run_test 10 10 0 0 "balanced bwidth"
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run_test 10 10 1 25 "balanced bwidth with unbalanced delay"
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# we still need some additional infrastructure to pass the following test-cases
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run_test 10 3 0 0 "unbalanced bwidth"
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run_test 10 3 1 25 "unbalanced bwidth with unbalanced delay"
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run_test 10 3 25 1 "unbalanced bwidth with opposed, unbalanced delay"
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mptcp_lib_result_print_all_tap
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exit $ret
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