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-#!/bin/bash
-
-# Copyright 2018 The gVisor Authors.
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-# http://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-
-# TCP benchmark; see README.md for documentation.
-
-# Fixed parameters.
-iperf_port=45201 # Not likely to be privileged.
-proxy_port=44000 # Ditto.
-client_addr=10.0.0.1
-client_proxy_addr=10.0.0.2
-server_proxy_addr=10.0.0.3
-server_addr=10.0.0.4
-mask=8
-
-# Defaults; this provides a reasonable approximation of a decent internet link.
-# Parameters can be varied independently from this set to see response to
-# various changes in the kind of link available.
-client=false
-server=false
-verbose=false
-gso=0
-swgso=false
-mtu=1280 # 1280 is a reasonable lowest-common-denominator.
-latency=10 # 10ms approximates a fast, dedicated connection.
-latency_variation=1 # +/- 1ms is a relatively low amount of jitter.
-loss=0.1 # 0.1% loss is non-zero, but not extremely high.
-duplicate=0.1 # 0.1% means duplicates are 1/10x as frequent as losses.
-duration=30 # 30s is enough time to consistent results (experimentally).
-helper_dir=$(dirname $0)
-netstack_opts=
-
-# Check for netem support.
-lsmod_output=$(lsmod | grep sch_netem)
-if [ "$?" != "0" ]; then
- echo "warning: sch_netem may not be installed." >&2
-fi
-
-while [ $# -gt 0 ]; do
- case "$1" in
- --client)
- client=true
- ;;
- --client_tcp_probe_file)
- shift
- netstack_opts="${netstack_opts} -client_tcp_probe_file=$1"
- ;;
- --server)
- server=true
- ;;
- --verbose)
- verbose=true
- ;;
- --gso)
- shift
- gso=$1
- ;;
- --swgso)
- swgso=true
- ;;
- --server_tcp_probe_file)
- shift
- netstack_opts="${netstack_opts} -server_tcp_probe_file=$1"
- ;;
- --ideal)
- mtu=1500 # Standard ethernet.
- latency=0 # No latency.
- latency_variation=0 # No jitter.
- loss=0 # No loss.
- duplicate=0 # No duplicates.
- ;;
- --mtu)
- shift
- [ "$#" -le 0 ] && echo "no mtu provided" && exit 1
- mtu=$1
- ;;
- --sack)
- netstack_opts="${netstack_opts} -sack"
- ;;
- --cubic)
- netstack_opts="${netstack_opts} -cubic"
- ;;
- --duration)
- shift
- [ "$#" -le 0 ] && echo "no duration provided" && exit 1
- duration=$1
- ;;
- --latency)
- shift
- [ "$#" -le 0 ] && echo "no latency provided" && exit 1
- latency=$1
- ;;
- --latency-variation)
- shift
- [ "$#" -le 0 ] && echo "no latency variation provided" && exit 1
- latency_variation=$1
- ;;
- --loss)
- shift
- [ "$#" -le 0 ] && echo "no loss probability provided" && exit 1
- loss=$1
- ;;
- --duplicate)
- shift
- [ "$#" -le 0 ] && echo "no duplicate provided" && exit 1
- duplicate=$1
- ;;
- --cpuprofile)
- shift
- netstack_opts="${netstack_opts} -cpuprofile=$1"
- ;;
- --memprofile)
- shift
- netstack_opts="${netstack_opts} -memprofile=$1"
- ;;
- --helpers)
- shift
- [ "$#" -le 0 ] && echo "no helper dir provided" && exit 1
- helper_dir=$1
- ;;
- *)
- echo "usage: $0 [options]"
- echo "options:"
- echo " --help show this message"
- echo " --verbose verbose output"
- echo " --client use netstack as the client"
- echo " --ideal reset all network emulation"
- echo " --server use netstack as the server"
- echo " --mtu set the mtu (bytes)"
- echo " --sack enable SACK support"
- echo " --cubic enable CUBIC congestion control for Netstack"
- echo " --duration set the test duration (s)"
- echo " --latency set the latency (ms)"
- echo " --latency-variation set the latency variation"
- echo " --loss set the loss probability (%)"
- echo " --duplicate set the duplicate probability (%)"
- echo " --helpers set the helper directory"
- echo ""
- echo "The output will of the script will be:"
- echo " <throughput> <client-cpu-usage> <server-cpu-usage>"
- exit 1
- esac
- shift
-done
-
-if [ ${verbose} == "true" ]; then
- set -x
-fi
-
-# Latency needs to be halved, since it's applied on both ways.
-half_latency=$(echo ${latency}/2 | bc -l | awk '{printf "%1.2f", $0}')
-half_loss=$(echo ${loss}/2 | bc -l | awk '{printf "%1.6f", $0}')
-half_duplicate=$(echo ${duplicate}/2 | bc -l | awk '{printf "%1.6f", $0}')
-helper_dir=${helper_dir#$(pwd)/} # Use relative paths.
-proxy_binary=${helper_dir}/tcp_proxy
-nsjoin_binary=${helper_dir}/nsjoin
-
-if [ ! -e ${proxy_binary} ]; then
- echo "Could not locate ${proxy_binary}, please make sure you've built the binary"
- exit 1
-fi
-
-if [ ! -e ${nsjoin_binary} ]; then
- echo "Could not locate ${nsjoin_binary}, please make sure you've built the binary"
- exit 1
-fi
-
-if [ $(echo ${latency_variation} | awk '{printf "%1.2f", $0}') != "0.00" ]; then
- # As long as there's some jitter, then we use the paretonormal distribution.
- # This will preserve the minimum RTT, but add a realistic amount of jitter to
- # the connection and cause re-ordering, etc. The regular pareto distribution
- # appears to an unreasonable level of delay (we want only small spikes.)
- distribution="distribution paretonormal"
-else
- distribution=""
-fi
-
-# Client proxy that will listen on the client's iperf target forward traffic
-# using the host networking stack.
-client_args="${proxy_binary} -port ${proxy_port} -forward ${server_proxy_addr}:${proxy_port}"
-if ${client}; then
- # Client proxy that will listen on the client's iperf target
- # and forward traffic using netstack.
- client_args="${proxy_binary} ${netstack_opts} -port ${proxy_port} -client \\
- -mtu ${mtu} -iface client.0 -addr ${client_proxy_addr} -mask ${mask} \\
- -forward ${server_proxy_addr}:${proxy_port} -gso=${gso} -swgso=${swgso}"
-fi
-
-# Server proxy that will listen on the proxy port and forward to the server's
-# iperf server using the host networking stack.
-server_args="${proxy_binary} -port ${proxy_port} -forward ${server_addr}:${iperf_port}"
-if ${server}; then
- # Server proxy that will listen on the proxy port and forward to the servers'
- # iperf server using netstack.
- server_args="${proxy_binary} ${netstack_opts} -port ${proxy_port} -server \\
- -mtu ${mtu} -iface server.0 -addr ${server_proxy_addr} -mask ${mask} \\
- -forward ${server_addr}:${iperf_port} -gso=${gso} -swgso=${swgso}"
-fi
-
-# Specify loss and duplicate parameters only if they are non-zero
-loss_opt=""
-if [ "$(echo $half_loss | bc -q)" != "0" ]; then
- loss_opt="loss random ${half_loss}%"
-fi
-duplicate_opt=""
-if [ "$(echo $half_duplicate | bc -q)" != "0" ]; then
- duplicate_opt="duplicate ${half_duplicate}%"
-fi
-
-exec unshare -U -m -n -r -f -p --mount-proc /bin/bash << EOF
-set -e -m
-
-if [ ${verbose} == "true" ]; then
- set -x
-fi
-
-mount -t tmpfs netstack-bench /tmp
-
-# We may have reset the path in the unshare if the shell loaded some public
-# profiles. Ensure that tools are discoverable via the parent's PATH.
-export PATH=${PATH}
-
-# Add client, server interfaces.
-ip link add client.0 type veth peer name client.1
-ip link add server.0 type veth peer name server.1
-
-# Add network emulation devices.
-ip link add wan.0 type veth peer name wan.1
-ip link set wan.0 up
-ip link set wan.1 up
-
-# Enroll on the bridge.
-ip link add name br0 type bridge
-ip link add name br1 type bridge
-ip link set client.1 master br0
-ip link set server.1 master br1
-ip link set wan.0 master br0
-ip link set wan.1 master br1
-ip link set br0 up
-ip link set br1 up
-
-# Set the MTU appropriately.
-ip link set client.0 mtu ${mtu}
-ip link set server.0 mtu ${mtu}
-ip link set wan.0 mtu ${mtu}
-ip link set wan.1 mtu ${mtu}
-
-# Add appropriate latency, loss and duplication.
-#
-# This is added in at the point of bridge connection.
-for device in wan.0 wan.1; do
- # NOTE: We don't support a loss correlation as testing has shown that it
- # actually doesn't work. The man page actually has a small comment about this
- # "It is also possible to add a correlation, but this option is now deprecated
- # due to the noticed bad behavior." For more information see netem(8).
- tc qdisc add dev \$device root netem \\
- delay ${half_latency}ms ${latency_variation}ms ${distribution} \\
- ${loss_opt} ${duplicate_opt}
-done
-
-# Start a client proxy.
-touch /tmp/client.netns
-unshare -n mount --bind /proc/self/ns/net /tmp/client.netns
-
-# Move the endpoint into the namespace.
-while ip link | grep client.0 > /dev/null; do
- ip link set dev client.0 netns /tmp/client.netns
-done
-
-if ! ${client}; then
- # Only add the address to NIC if netstack is not in use. Otherwise the host
- # will also process the inbound SYN and send a RST back.
- ${nsjoin_binary} /tmp/client.netns ip addr add ${client_proxy_addr}/${mask} dev client.0
-fi
-
-# Start a server proxy.
-touch /tmp/server.netns
-unshare -n mount --bind /proc/self/ns/net /tmp/server.netns
-# Move the endpoint into the namespace.
-while ip link | grep server.0 > /dev/null; do
- ip link set dev server.0 netns /tmp/server.netns
-done
-if ! ${server}; then
- # Only add the address to NIC if netstack is not in use. Otherwise the host
- # will also process the inbound SYN and send a RST back.
- ${nsjoin_binary} /tmp/server.netns ip addr add ${server_proxy_addr}/${mask} dev server.0
-fi
-
-# Add client and server addresses, and bring everything up.
-${nsjoin_binary} /tmp/client.netns ip addr add ${client_addr}/${mask} dev client.0
-${nsjoin_binary} /tmp/server.netns ip addr add ${server_addr}/${mask} dev server.0
-${nsjoin_binary} /tmp/client.netns ip link set client.0 up
-${nsjoin_binary} /tmp/client.netns ip link set lo up
-${nsjoin_binary} /tmp/server.netns ip link set server.0 up
-${nsjoin_binary} /tmp/server.netns ip link set lo up
-ip link set dev client.1 up
-ip link set dev server.1 up
-
-${nsjoin_binary} /tmp/client.netns ${client_args} &
-client_pid=\$!
-${nsjoin_binary} /tmp/server.netns ${server_args} &
-server_pid=\$!
-
-# Start the iperf server.
-${nsjoin_binary} /tmp/server.netns iperf -p ${iperf_port} -s >&2 &
-iperf_pid=\$!
-
-# Show traffic information.
-if ! ${client} && ! ${server}; then
- ${nsjoin_binary} /tmp/client.netns ping -c 100 -i 0.001 -W 1 ${server_addr} >&2 || true
-fi
-
-results_file=\$(mktemp)
-function cleanup {
- rm -f \$results_file
- kill -TERM \$client_pid
- kill -TERM \$server_pid
- wait \$client_pid
- wait \$server_pid
- kill -9 \$iperf_pid 2>/dev/null
-}
-
-# Allow failure from this point.
-set +e
-trap cleanup EXIT
-
-# Run the benchmark, recording the results file.
-while ${nsjoin_binary} /tmp/client.netns iperf \\
- -p ${proxy_port} -c ${client_addr} -t ${duration} -f m 2>&1 \\
- | tee \$results_file \\
- | grep "connect failed" >/dev/null; do
- sleep 0.1 # Wait for all services.
-done
-
-# Unlink all relevant devices from the bridge. This is because when the bridge
-# is deleted, the kernel may hang. It appears that this problem is fixed in
-# upstream commit 1ce5cce895309862d2c35d922816adebe094fe4a.
-ip link set client.1 nomaster
-ip link set server.1 nomaster
-ip link set wan.0 nomaster
-ip link set wan.1 nomaster
-
-# Emit raw results.
-cat \$results_file >&2
-
-# Emit a useful result (final throughput).
-mbits=\$(grep Mbits/sec \$results_file \\
- | sed -n -e 's/^.*[[:space:]]\\([[:digit:]]\\+\\(\\.[[:digit:]]\\+\\)\\?\\)[[:space:]]*Mbits\\/sec.*/\\1/p')
-client_cpu_ticks=\$(cat /proc/\$client_pid/stat \\
- | awk '{print (\$14+\$15);}')
-server_cpu_ticks=\$(cat /proc/\$server_pid/stat \\
- | awk '{print (\$14+\$15);}')
-ticks_per_sec=\$(getconf CLK_TCK)
-client_cpu_load=\$(bc -l <<< \$client_cpu_ticks/\$ticks_per_sec/${duration})
-server_cpu_load=\$(bc -l <<< \$server_cpu_ticks/\$ticks_per_sec/${duration})
-echo \$mbits \$client_cpu_load \$server_cpu_load
-EOF