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| | # SPDX-License-Identifier: AGPL-3.0-or-later
#
# PASST - Plug A Simple Socket Transport
# for qemu/UNIX domain socket mode
#
# PASTA - Pack A Subtle Tap Abstraction
# for network namespace/tap device mode
#
# test/demo/podman - Show pasta operation with Podman
#
# Copyright (c) 2022 Red Hat GmbH
# Author: Stefano Brivio <sbrivio(a)redhat.com>
onlyfor podman
set OPTS -Z -w 4M -l 1M -P 2 -t5 --pacing-timer 10000
set OPTS_10s -Z -w 4M -l 1M -P 2 -t10 --pacing-timer 10000
say This is an overview of
em Podman
say using
em pasta
say .
nl
nl
sleep 3
say Let's fetch Podman
sleep 1
tempdir TEMPDIR
host git -C __TEMPDIR__ clone https://github.com/containers/podman.git
sleep 1
say , patch it
sleep 1
host cp ../contrib/podman/0001-libpod-Add-pasta-networking-mode.patch __TEMPDIR__/podman
host cd __TEMPDIR__/podman
host patch -p1 < 0001-libpod-Add-pasta-networking-mode.patch
sleep 1
say , and build it.
host make
sleep 1
nl
nl
say By default, for
em rootless
say mode, Podman will pick
nl
em slirp4netns
say to operate the network.
nl
nl
say Let's start a container with it
sleep 1
ns1 cd __TEMPDIR__/podman
ns1b ./bin/podman run --rm -ti alpine sh
sleep 2
say ,
nl
say and one with
em pasta
say instead.
ns2 cd __TEMPDIR__/podman
ns2b ./bin/podman run --net=pasta --rm -ti alpine sh
sleep 2
nl
nl
say We can observe some practical differences:
nl
ns1b ip ad sh
sleep 3
say - slirp4netns uses a predefined IPv4 address
hl NS1
sleep 2
ns2b ip ad sh
sleep 3
say ,
nl
say pasta copies addresses from the host
hl NS2
sleep 2
nl
say - pasta enables IPv6 by default
hl NS2
sleep 2
nl
say - slirp4netns uses
em tap0
say as interface name
hl NS1
sleep 2
say , pasta
nl
say takes an interface name from the host
hl NS2
sleep 2
nl
say - same for routes:
ns1b ip ro sh
sleep 3
say slirp4netns defines its own
nl
say gateway address
hl NS1
sleep 2
say , pasta copies it from the host
ns2b ip ro sh
ns2b ip -6 ro sh
sleep 5
nl
nl
say Let's check connectivity...
sleep 2
ns1b wget risotto.milane.se
ns2b wget myfinge.rs
sleep 2
say fine.
sleep 5
nl
nl
say Let's run a service in the container. We didn't
nl
say configure port forwarding. With default options,
nl
say pasta detects services bound inside and outside
nl
say the container and forwards ports accordingly, so
nl
say we don't need to restart it. Let's restart the
nl
say container running with slirp4netns...
sleep 5
ns1b exit
sleep 2
ns1b podman run --rm -p 8080:8080/tcp -ti alpine sh
sleep 5
nl
nl
say and now actually start the service
ns1b apk add thttpd
ns2b apk add thttpd
ns1b >index.html cat << EOF
ns1b <!doctype html><body>Hello via slirp4netns</body>
ns1b EOF
ns2b >index.html cat << EOF
ns2b <!doctype html><body>Hello via pasta</body>
ns2b EOF
ns1b thttpd -p 8080
ns2b thttpd -p 8081
sleep 3
say , then check
nl
say that it's accessible.
sleep 3
hostb lynx http://127.0.0.1:8080/
sleep 5
hostb q
hostb lynx http://[::1]:8081/
sleep 5
hostb q
sleep 2
nl
nl
say What about performance, you might ask.
nl
say For simplicity, we'll measure between init
nl
say namespace (the "host") and container. To do
nl
say that, we need to allow the container direct
nl
say access to the host, which needs an extra option
nl
say in slirp4netns. Let's restart that container,
nl
say while also mapping ports for iperf3 and neper,
nl
say and enabling IPv6 for slirp4netns (experimental)
nl
say too.
sleep 3
ns1 exit
ns1b podman run --rm --net=slirp4netns:allow_host_loopback=true,enable_ipv6=true -p 5201-5202:5201-5202/tcp -p 5201-5202:5201-5202/udp -ti alpine sh
sleep 5
nl
nl
say pasta allows that by default, so we wouldn't need
nl
say to touch the container using pasta, but let's
nl
say take the chance to look at passing extra options
nl
say there as well.
nl
nl
ns2 exit
say Options after '--net-pasta:' are the same as
nl
say documented for the command line of pasta(1).
nl
say For example, we can enable packet captures
sleep 3
ns2b ./bin/podman run --net=pasta:--pcap,demo.pcap --rm -ti alpine sh
sleep 5
say ,
nl
say and generate some traffic we can look at.
nl
sleep 2
ns2b wget -O - lameexcu.se
sleep 2
hostb tshark -r demo.pcap tcp
sleep 5
nl
say But back to performance now. By the way,
nl
say pasta doesn't detect bound UDP ports
nl
say periodically (only when it starts), so we
nl
say have to pass the ones we need explicitly.
nl
sleep 2
ns2b exit
sleep 1
ns2b ./bin/podman run --net=pasta:-U,5214 -p 5204:5204/udp --rm -ti alpine sh
sleep 5
nl
say In slirp4netns mode, Podman enables by
nl
say default the port forwarder from 'rootlesskit'
nl
say for better performance.
nl
say However, it can't be used for non-local
nl
say mappings (traffic without loopback source
nl
em and
say destination) because it doesn't preserve
nl
say the correct source address as it forwards
nl
say packets to the container.
sleep 3
nl
nl
say We'll check non-loopback mappings first for
nl
say both pasta and slirp4netns, then restart the
nl
say slirp4netns container with rootlesskit and
nl
say switch to loopback mappings. pasta doesn't
nl
say have this limitation.
nl
nl
say One last note: slirp4netns doesn't support
nl
say forwarding of IPv6 ports (to the container):
nl
say github.com/rootless-containers/slirp4netns/issues/253
nl
say so we'll skip IPv6 tests for slirp4netns as
nl
say port forwarder (on the path to the container).
sleep 5
ns1 exit
ns1b podman run --rm --net=slirp4netns:allow_host_loopback=true,enable_ipv6=true,port_handler=slirp4netns -p 5201-5202:5201-5202/tcp -p 5201-5202:5201-5202/udp -ti alpine sh
sleep 3
nl
nl
say We'll use iperf3(1) for throughput
sleep 2
ns1b apk add iperf3 jq bc
ns2b apk add iperf3 jq bc
sleep 2
say and static
nl
say builds of neper (github.com/google/neper) for
nl
say latency.
ns1 wget lameexcu.se/tcp_rr; chmod 755 tcp_rr
ns2 wget lameexcu.se/tcp_rr; chmod 755 tcp_rr
ns1 wget lameexcu.se/tcp_crr; chmod 755 tcp_crr
ns2 wget lameexcu.se/tcp_crr; chmod 755 tcp_crr
ns1 wget lameexcu.se/udp_rr; chmod 755 udp_rr
ns2 wget lameexcu.se/udp_rr; chmod 755 udp_rr
sleep 5
nl
nl
say Everything is set now, let's start
sleep 2
hout IFNAME ip -j li sh | jq -rM '.[] | select(.link_type == "ether").ifname'
hout ADDR4 ip -j -4 ad sh|jq -rM '.[] | select(.ifname == "__IFNAME__").addr_info[] | select(.scope == "global").local'
hout ADDR6 ip -j -6 ad sh|jq -rM '.[] | select(.ifname == "__IFNAME__").addr_info[] | select(.scope == "global").local'
hout GW4 ip -j -4 ro sh|jq -rM '.[] | select(.dst == "default").gateway'
hout GW6 ip -j -6 ro sh|jq -rM '.[] | select(.dst == "default").gateway'
nl
nl
resize INFO D 15
info Throughput in Gbps, latency in µs
info non-loopback (tap) connections
th mode slirp4netns pasta
tr TCP/IPv6 to ns
#ns1b (iperf3 -s1J -p 5201 | jq -rM ".end.sum_received.bits_per_second" >t1) &
#ns1b iperf3 -s1J -p 5202 | jq -rM ".end.sum_received.bits_per_second" >t2
#hostb iperf3 -c __ADDR6__ -p 5201 __OPTS_10s__ & iperf3 -c __ADDR6__ -p 5202 __OPTS_10s__
#sleep 15
#ns1b
#ns1out BW echo "$(cat t1) + $(cat t2)" | bc -l
#bw __BW__ 0.0 0.0
bw -
ns2b (iperf3 -s1J -p 5203 | jq -rM ".end.sum_received.bits_per_second" >t1) &
ns2b iperf3 -s1J -p 5204 | jq -rM ".end.sum_received.bits_per_second" >t2
hostb iperf3 -c __ADDR6__ -p 5203 -t5 -l 1M -Z & iperf3 -c __ADDR6__ -p 5204 -t5 -l 1M -Z
sleep 10
ns2b
ns2out BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
hostb
tl RR latency
#ns1b ./tcp_rr -6 --nolog -C 5201 -P 5202
#sleep 2
#hout LAT tcp_rr --nolog -c -H __ADDR6__ -C 5201 -P 5202 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
#lat __LAT__ 100000 100000
lat -
ns2b ./tcp_rr -6 --nolog -C 5203 -P 5204
sleep 2
hout LAT tcp_rr --nolog -c -H __ADDR6__ -C 5203 -P 5204 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl CRR latency
#ns1b ./tcp_crr -6 --nolog -C 5201 -P 5202
#sleep 2
#hout LAT tcp_crr --nolog -c -H __ADDR6__ -C 5201 -P 5202 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
#lat __LAT__ 100000 100000
lat -
ns2b ./tcp_crr -6 --nolog -C 5203 -P 5204
sleep 2
hout LAT tcp_crr --nolog -c -H __ADDR6__ -C 5203 -P 5204 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl TCP/IPv4 to ns
ns1b (iperf3 -s1J -p 5201 | jq -rM ".end.sum_received.bits_per_second" >t1) &
ns1b iperf3 -s1J -p 5202 | jq -rM ".end.sum_received.bits_per_second" >t2
hostb iperf3 -c __ADDR4__ -p 5201 __OPTS__ & iperf3 -c __ADDR4__ -p 5202 __OPTS__
sleep 10
ns1b
ns1out BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
ns2b (iperf3 -s1J -p 5203 | jq -rM ".end.sum_received.bits_per_second" >t1) &
ns2b iperf3 -s1J -p 5204 | jq -rM ".end.sum_received.bits_per_second" >t2
hostb iperf3 -c __ADDR4__ -p 5203 __OPTS__ & iperf3 -c __ADDR4__ -p 5204 __OPTS__
sleep 10
ns2b
ns2out BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
hostb
tl RR latency
ns1b ./tcp_rr -4 --nolog -C 5201 -P 5202
sleep 2
hout LAT tcp_rr --nolog -c -H __ADDR4__ -C 5201 -P 5202 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
ns2b ./tcp_rr -4 --nolog -C 5203 -P 5204
sleep 2
hout LAT tcp_rr --nolog -c -H __ADDR4__ -C 5203 -P 5204 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl CRR latency
ns1b ./tcp_crr -4 --nolog -C 5201 -P 5202
sleep 2
hout LAT tcp_crr --nolog -c -H __ADDR4__ -C 5201 -P 5202 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
ns2b ./tcp_crr -4 --nolog -C 5203 -P 5204
sleep 2
hout LAT tcp_crr --nolog -c -H __ADDR4__ -C 5203 -P 5204 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tr TCP/IPv6 to host
hostb (iperf3 -s1J -p 5211 | jq -rM ".end.sum_received.bits_per_second" >t1) &
hostb iperf3 -s1J -p 5212 | jq -rM ".end.sum_received.bits_per_second" >t2
ns1b iperf3 -c fd00::2 -p 5211 __OPTS__ & iperf3 -c fd00::2 -p 5212 __OPTS__
sleep 10
hostb
hout BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
hostb (iperf3 -s1J -p 5213 | jq -rM ".end.sum_received.bits_per_second" >t1) &
hostb iperf3 -s1J -p 5214 | jq -rM ".end.sum_received.bits_per_second" >t2
ns2b iperf3 -c __GW6__%__IFNAME__ -p 5213 __OPTS__ & iperf3 -c __GW6__%__IFNAME__ -p 5214 __OPTS__
sleep 10
hostb
hout BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
ns1b
ns2b
tl RR latency
hostb tcp_rr -6 --nolog -C 5211 -P 5212
sleep 2
ns1out LAT ./tcp_rr --nolog -c -H fd00::2 -C 5211 -P 5212 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
hostb tcp_rr -6 --nolog -C 5213 -P 5214
sleep 2
ns2out LAT ./tcp_rr --nolog -c -H __GW6__%__IFNAME__ -C 5213 -P 5214 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl CRR latency
hostb tcp_crr -6 --nolog -C 5211 -P 5212
sleep 2
ns1out LAT ./tcp_crr --nolog -c -H fd00::2 -C 5211 -P 5212 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
hostb tcp_crr -6 --nolog -C 5213 -P 5214
sleep 2
ns2out LAT ./tcp_crr --nolog -c -H __GW6__%__IFNAME__ -C 5213 -P 5214 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl TCP/IPv4 to host
hostb (iperf3 -s1J -p 5211 | jq -rM ".end.sum_received.bits_per_second" >t1) &
hostb iperf3 -s1J -p 5212 | jq -rM ".end.sum_received.bits_per_second" >t2
ns1b iperf3 -c 10.0.2.2 -p 5211 __OPTS__ & iperf3 -c 10.0.2.2 -p 5212 __OPTS__
sleep 10
hostb
hout BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
hostb (iperf3 -s1J -p 5213 | jq -rM ".end.sum_received.bits_per_second" >t1) &
hostb iperf3 -s1J -p 5214 | jq -rM ".end.sum_received.bits_per_second" >t2
ns2b iperf3 -c __GW4__ -p 5213 __OPTS__ & iperf3 -c __GW4__ -p 5214 __OPTS__
sleep 10
hostb
hout BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
ns1b
ns2b
tl RR latency
hostb tcp_rr -4 --nolog -C 5211 -P 5212
sleep 2
ns1out LAT ./tcp_rr --nolog -c -H 10.0.2.2 -C 5211 -P 5212 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
hostb tcp_rr -4 --nolog -C 5213 -P 5214
sleep 2
ns2out LAT ./tcp_rr --nolog -c -H __GW4__ -C 5213 -P 5214 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl CRR latency
hostb tcp_crr -4 --nolog -C 5211 -P 5212
sleep 2
ns1out LAT ./tcp_crr --nolog -c -H 10.0.2.2 -C 5211 -P 5212 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
hostb tcp_crr -4 --nolog -C 5213 -P 5214
sleep 2
ns2out LAT ./tcp_crr --nolog -c -H __GW4__ -C 5213 -P 5214 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
sleep 5
tr UDP/IPv6 to ns
#ns1b iperf3 -s1J -p 5201 | jq -rM ".intervals[0].sum.bits_per_second" >t1
#hostb iperf3 -u -c __ADDR6__ -p 5201 -t5 -b 35G
#sleep 10
#ns1out BW cat t1
#bw __BW__ 0.0 0.0
bw -
ns2b iperf3 -s1J -p 5204 | jq -rM ".intervals[0].sum.bits_per_second" >t1
hostb iperf3 -u -c __ADDR6__ -p 5204 -t5 -b 35G
sleep 10
ns2out BW cat t1
bw __BW__ 0.0 0.0
tl RR latency
#ns1b ./udp_rr -6 --nolog -C 5201 -P 5202
#sleep 2
#hout LAT udp_rr --nolog -c -H __ADDR6__ -C 5201 -P 5202 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
#lat __LAT__ 100000 100000
lat -
ns2b ./udp_rr -6 --nolog -C 5203 -P 5204
sleep 2
hout LAT udp_rr --nolog -c -H __ADDR6__ -C 5203 -P 5204 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl UDP/IPv4 to ns
ns1b iperf3 -s1J -p 5201 | jq -rM ".intervals[0].sum.bits_per_second" >t1
hostb iperf3 -u -c __ADDR4__ -p 5201 -t5 -b 35G
sleep 10
ns1out BW cat t1
bw __BW__ 0.0 0.0
ns2b iperf3 -s1J -p 5204 | jq -rM ".intervals[0].sum.bits_per_second" >t1
hostb iperf3 -u -c __ADDR4__ -p 5204 -t5 -b 35G
sleep 10
ns2out BW cat t1
bw __BW__ 0.0 0.0
tl RR latency
ns1b ./udp_rr -6 --nolog -C 5201 -P 5202
sleep 2
hout LAT udp_rr --nolog -c -H __ADDR4__ -C 5201 -P 5202 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
ns2b ./udp_rr -6 --nolog -C 5203 -P 5204
sleep 2
hout LAT udp_rr --nolog -c -H __ADDR4__ -C 5203 -P 5204 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
ns1 exit
ns1 podman run --rm --net=slirp4netns:allow_host_loopback=true,enable_ipv6=true -p 5201-5202:5201-5202/tcp -p 5201-5202:5201-5202/udp -ti alpine sh
ns1 apk add iperf3 jq bc
ns1 wget lameexcu.se/tcp_rr; chmod 755 tcp_rr
ns1 wget lameexcu.se/tcp_crr; chmod 755 tcp_crr
ns1 wget lameexcu.se/udp_rr; chmod 755 udp_rr
info
info
info loopback (lo) connections
th mode rootlesskit pasta
tr TCP/IPv6 to ns
ns1b (iperf3 -s1J -p 5201 | jq -rM ".end.sum_received.bits_per_second" >t1) &
ns1b iperf3 -s1J -p 5202 | jq -rM ".end.sum_received.bits_per_second" >t2
hostb iperf3 -c ::1 -p 5201 -t5 -l 1M -Z & iperf3 -c ::1 -p 5202 -t5 -l 1M -Z
sleep 10
ns1b
ns1out BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
ns2b (iperf3 -s1J -p 5203 | jq -rM ".end.sum_received.bits_per_second" >t1) &
ns2b iperf3 -s1J -p 5204 | jq -rM ".end.sum_received.bits_per_second" >t2
hostb iperf3 -c ::1 -p 5203 -t5 -l 1M -Z & iperf3 -c ::1 -p 5204 -t5 -l 1M -Z
sleep 10
ns2b
ns2out BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
hostb
tl RR latency
ns1b ./tcp_rr -6 --nolog -C 5201 -P 5202
sleep 2
hout LAT tcp_rr --nolog -c -H ::1 -C 5201 -P 5202 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
ns2b ./tcp_rr -6 --nolog -C 5203 -P 5204
sleep 2
hout LAT tcp_rr --nolog -c -H ::1 -C 5203 -P 5204 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl CRR latency
ns1b ./tcp_crr -6 --nolog -C 5201 -P 5202
sleep 2
hout LAT tcp_crr --nolog -c -H ::1 -C 5201 -P 5202 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
ns2b ./tcp_crr -6 --nolog -C 5203 -P 5204
sleep 2
hout LAT tcp_crr --nolog -c -H ::1 -C 5203 -P 5204 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl TCP/IPv4 to ns
ns1b (iperf3 -s1J -p 5201 | jq -rM ".end.sum_received.bits_per_second" >t1) &
ns1b iperf3 -s1J -p 5202 | jq -rM ".end.sum_received.bits_per_second" >t2
hostb iperf3 -c 127.0.0.1 -p 5201 __OPTS__ & iperf3 -c 127.0.0.1 -p 5202 __OPTS__
sleep 10
ns1b
ns1out BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
ns2b (iperf3 -s1J -p 5203 | jq -rM ".end.sum_received.bits_per_second" >t1) &
ns2b iperf3 -s1J -p 5204 | jq -rM ".end.sum_received.bits_per_second" >t2
hostb iperf3 -c 127.0.0.1 -p 5203 __OPTS__ & iperf3 -c 127.0.0.1 -p 5204 __OPTS__
sleep 10
ns2b
ns2out BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
hostb
tl RR latency
ns1b ./tcp_rr -4 --nolog -C 5201 -P 5202
sleep 2
hout LAT tcp_rr --nolog -c -H 127.0.0.1 -C 5201 -P 5202 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
ns2b ./tcp_rr -4 --nolog -C 5203 -P 5204
sleep 2
hout LAT tcp_rr --nolog -c -H 127.0.0.1 -C 5203 -P 5204 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl CRR latency
ns1b ./tcp_crr -4 --nolog -C 5201 -P 5202
sleep 2
hout LAT tcp_crr --nolog -c -H 127.0.0.1 -C 5201 -P 5202 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
ns2b ./tcp_crr -4 --nolog -C 5203 -P 5204
sleep 2
hout LAT tcp_crr --nolog -c -H 127.0.0.1 -C 5203 -P 5204 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tr TCP/IPv6 to host
hostb (iperf3 -s1J -p 5211 | jq -rM ".end.sum_received.bits_per_second" >t1) &
hostb iperf3 -s1J -p 5212 | jq -rM ".end.sum_received.bits_per_second" >t2
ns1b iperf3 -c fd00::2 -p 5211 __OPTS__ & iperf3 -c fd00::2 -p 5212 __OPTS__
sleep 10
hostb
hout BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
hostb (iperf3 -s1J -p 5213 | jq -rM ".end.sum_received.bits_per_second" >t1) &
hostb iperf3 -s1J -p 5214 | jq -rM ".end.sum_received.bits_per_second" >t2
ns2b iperf3 -c ::1 -p 5213 __OPTS__ & iperf3 -c ::1 -p 5214 __OPTS__
sleep 10
hostb
hout BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
ns1b
ns2b
tl RR latency
hostb tcp_rr -6 --nolog -C 5211 -P 5212
sleep 2
ns1out LAT ./tcp_rr --nolog -c -H fd00::2 -C 5211 -P 5212 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
hostb tcp_rr -6 --nolog -C 5213 -P 5214
sleep 2
ns2out LAT ./tcp_rr --nolog -c -H ::1 -C 5213 -P 5214 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl CRR latency
hostb tcp_crr -6 --nolog -C 5211 -P 5212
sleep 2
ns1out LAT ./tcp_crr --nolog -c -H fd00::2 -C 5211 -P 5212 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
hostb tcp_crr -6 --nolog -C 5213 -P 5214
sleep 2
ns2out LAT ./tcp_crr --nolog -c -H ::1 -C 5213 -P 5214 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl TCP/IPv4 to host
hostb (iperf3 -s1J -p 5211 | jq -rM ".end.sum_received.bits_per_second" >t1) &
hostb iperf3 -s1J -p 5212 | jq -rM ".end.sum_received.bits_per_second" >t2
ns1b iperf3 -c 10.0.2.2 -p 5211 __OPTS__ & iperf3 -c 10.0.2.2 -p 5212 __OPTS__
sleep 10
hostb
hout BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
hostb (iperf3 -s1J -p 5213 | jq -rM ".end.sum_received.bits_per_second" >t1) &
hostb iperf3 -s1J -p 5214 | jq -rM ".end.sum_received.bits_per_second" >t2
ns2b iperf3 -c 127.0.0.1 -p 5213 __OPTS__ & iperf3 -c 127.0.0.1 -p 5214 __OPTS__
sleep 10
hostb
hout BW echo "$(cat t1) + $(cat t2)" | bc -l
bw __BW__ 0.0 0.0
ns1b
ns2b
tl RR latency
hostb tcp_rr -4 --nolog -C 5211 -P 5212
sleep 2
ns1out LAT ./tcp_rr --nolog -c -H 10.0.2.2 -C 5211 -P 5212 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
hostb tcp_rr -4 --nolog -C 5213 -P 5214
sleep 2
ns2out LAT ./tcp_rr --nolog -c -H 127.0.0.1 -C 5213 -P 5214 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl CRR latency
hostb tcp_crr -4 --nolog -C 5211 -P 5212
sleep 2
ns1out LAT ./tcp_crr --nolog -c -H 10.0.2.2 -C 5211 -P 5212 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
hostb tcp_crr -4 --nolog -C 5213 -P 5214
sleep 2
ns2out LAT ./tcp_crr --nolog -c -H 127.0.0.1 -C 5213 -P 5214 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
sleep 5
tr UDP/IPv6 to ns
ns1b iperf3 -s1J -p 5201 | jq -rM ".intervals[0].sum.bits_per_second" >t1
hostb iperf3 -u -c ::1 -p 5201 -t5 -b 35G
sleep 10
ns1out BW cat t1
bw __BW__ 0.0 0.0
ns2b iperf3 -s1J -p 5204 | jq -rM ".intervals[0].sum.bits_per_second" >t1
hostb iperf3 -u -c ::1 -p 5204 -t5 -b 35G
sleep 10
ns2out BW cat t1
bw __BW__ 0.0 0.0
tl RR latency
ns1b ./udp_rr -6 --nolog -C 5201 -P 5202
sleep 2
hout LAT udp_rr --nolog -c -H ::1 -C 5201 -P 5202 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
ns2b ./udp_rr -6 --nolog -C 5203 -P 5204
sleep 2
hout LAT udp_rr --nolog -c -H ::1 -C 5203 -P 5204 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl UDP/IPv4 to ns
ns1b iperf3 -s1J -p 5201 | jq -rM ".intervals[0].sum.bits_per_second" >t1
hostb iperf3 -u -c 127.0.0.1 -p 5201 -t5 -b 35G
sleep 10
ns1out BW cat t1
bw __BW__ 0.0 0.0
ns2b iperf3 -s1J -p 5204 | jq -rM ".intervals[0].sum.bits_per_second" >t1
hostb iperf3 -u -c 127.0.0.1 -p 5204 -t5 -b 35G
sleep 10
ns2out BW cat t1
bw __BW__ 0.0 0.0
tl RR latency
ns1b ./udp_rr -6 --nolog -C 5201 -P 5202
sleep 2
hout LAT udp_rr --nolog -c -H 127.0.0.1 -C 5201 -P 5202 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
ns2b ./udp_rr -6 --nolog -C 5203 -P 5204
sleep 2
hout LAT udp_rr --nolog -c -H 127.0.0.1 -C 5203 -P 5204 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tr UDP/IPv6 to host
hostb iperf3 -s1J -p 5211 | jq -rM ".intervals[0].sum.bits_per_second" >t1
ns1b iperf3 -u -c fd00::2 -p 5211 -t5 -b 35G
sleep 10
hout BW cat t1
bw __BW__ 0.0 0.0
hostb iperf3 -s1J -p 5214 | jq -rM ".intervals[0].sum.bits_per_second" >t1
ns2b iperf3 -u -c ::1 -p 5214 -t5 -b 35G
sleep 10
hout BW cat t1
bw __BW__ 0.0 0.0
tl RR latency
hostb udp_rr -6 --nolog -C 5211 -P 5212
sleep 2
ns1out LAT ./udp_rr --nolog -c -H fd00::2 -C 5211 -P 5212 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
hostb udp_rr -6 --nolog -C 5213 -P 5214
sleep 2
ns2out LAT ./udp_rr --nolog -c -H ::1 -C 5213 -P 5214 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
tl UDP/IPv4 to host
hostb iperf3 -s1J -p 5211 | jq -rM ".intervals[0].sum.bits_per_second" >t1
ns1b iperf3 -u -c 10.0.2.2 -p 5211 -t5 -b 35G
sleep 10
hout BW cat t1
bw __BW__ 0.0 0.0
hostb iperf3 -s1J -p 5214 | jq -rM ".intervals[0].sum.bits_per_second" >t1
ns2b iperf3 -u -c 127.0.0.1 -p 5214 -t5 -b 35G
sleep 10
hout BW cat t1
bw __BW__ 0.0 0.0
tl RR latency
hostb udp_rr -6 --nolog -C 5211 -P 5212
sleep 2
ns1out LAT ./udp_rr --nolog -c -H 10.0.2.2 -C 5211 -P 5212 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
hostb udp_rr -6 --nolog -C 5213 -P 5214
sleep 2
ns2out LAT ./udp_rr --nolog -c -H 127.0.0.1 -C 5213 -P 5214 -l 5 | sed -n 's/^throughput=\(.*\)/\1/p'
lat __LAT__ 100000 100000
nl
nl
say Thanks for watching!
sleep 15
|