genode/repos/ports/run/netperf.inc

524 lines
14 KiB
PHP
Raw Normal View History

#
# \brief Test for using netperf
# \author Alexander Boettcher
# \author Martin Stein
# \date 2013-04-18
#
#
# To execute this run script on your Linux host you have to do some
# preparation:
#
# 1) Setup a TAP device:
# ! export USER=[YOUR_USER_NAME]
# ! export FLAVOR=[YOUR_TEST_FLAVOR] # e.g. 'lwip_bridge'
# ! export TAP_DEV=tap0
# ! sudo ip tuntap add dev $TAP_DEV mode tap user $USER
# ! sudo ip address flush dev $TAP_DEV
# ! sudo ip address add 10.0.2.1/24 brd 10.0.2.255 dev $TAP_DEV
# ! sudo ip link set dev $TAP_DEV addr 02:00:00:ca:fe:01
# ! sudo ip link set dev $TAP_DEV up
#
# 2) Now, start the test:
# ! cd build/x86_64
# ! make run/netperf_$FLAVOR KERNEL=linux BOARD=linux
#
# 3) Clean up your Linux when done testing:
# ! sudo ip tuntap delete $TAP_DEV mode tap
#
if {[have_include "power_on/qemu"]} {
puts "\nRun script does not support Qemu.\n"
exit 0
}
if {[have_board imx53_qsb_tz] || [have_board rpi]} {
2018-05-02 10:24:40 +00:00
puts "Run script is not supported on this platform."
exit 0
}
proc unique_byte_per_platform { } {
if {[expr ![have_include "power_on/qemu"]]} {
if {[have_spec arm_v6]} {
if {[have_board rpi]} {
if {[have_spec hw]} { return 0; }
}
}
if {[have_spec arm_v7a]} {
if {[have_board imx53_qsb]} {
if {[have_spec hw]} { return 1; }
}
if {[have_board imx6q_sabrelite]} {
if {[have_spec hw]} { return 2; }
if {[have_spec foc]} { return 3; }
if {[have_spec sel4]} { return 4; }
}
if {[have_board imx7d_sabre]} {
if {[have_spec hw]} { return 5; }
if {[have_spec foc]} { return 6; }
if {[have_spec sel4]} { return 7; }
}
if {[have_board zynq_usrp_e31x]} {
if {[have_spec hw]} { return 8; }
}
}
if {[have_spec arm_v8a]} {
if {[have_board imx8q_evk]} {
if {[have_spec hw]} { return 20; }
}
}
if {[have_spec x86_32]} {
if {[have_board linux]} {
if {[have_spec linux]} { return 40; }
}
if {[have_board pc]} {
if {[have_spec foc]} { return 41; }
if {[have_spec sel4]} { return 42; }
if {[have_spec nova]} { return 43; }
if {[have_spec fiasco]} { return 44; }
if {[have_spec okl4]} { return 45; }
if {[have_spec pistachio]} { return 46; }
}
}
if {[have_spec x86_64]} {
if {[have_board linux]} {
if {[have_spec linux]} { return 60; }
}
if {[have_board pc]} {
if {[have_spec hw]} { return 61; }
if {[have_spec foc]} { return 62; }
if {[have_spec sel4]} { return 63; }
if {[have_spec nova]} { return 64; }
}
}
}
puts "Failed to determine unique byte for target."
exit -1
}
proc server_data_port { } {
return [expr 18000 + [unique_byte_per_platform]];
}
proc server_ctrl_port { } {
return 12865;
}
set bridge_mac "02:02:02:02:16:00"
set version "2.6.0"
# sanity check that the right version is used
set wrong_version [catch {
spawn netperf-$version -V
expect {
{Netperf version 2.6.0} { }
eof { return }
timeout { return }
}
}]
if {$wrong_version} {
puts -nonewline "\nPlease compile a netperf client of version $version "
puts "for your host system."
puts "The sources are available in 'contrib/netperf-<hash>' (after you "
puts "prepared the port by calling 'tool/ports/prepare_port netperf')."
puts "Please name the binary netperf-$version\n"
exit 1;
}
# netperf configuration
set netperf_tests "TCP_STREAM TCP_MAERTS"
proc socket_fs_plugin {} {
global use_lxip
if { $use_lxip } { return lxip }
return lwip
}
create_boot_directory
set packages "
[depot_user]/src/[base_src]
[depot_user]/src/init
[depot_user]/src/libc
[depot_user]/src/posix
[depot_user]/src/report_rom
[depot_user]/src/vfs
[depot_user]/src/nic_router
"
set use_nic_drv [expr !$use_usb_driver && !$use_wifi_driver]
append_if $use_nic_drv packages " [depot_user]/pkg/[drivers_nic_pkg] "
append_if [expr !$use_lxip] packages " [depot_user]/src/vfs_lwip "
append_if $use_lxip packages " [depot_user]/src/vfs_lxip "
append_if $use_nic_bridge packages " [depot_user]/src/nic_bridge "
append_if $use_usb_driver packages " [depot_user]/pkg/test_usb_host_drv-[board] "
append_if $use_usb_driver packages " [depot_user]/src/usb_net_drv "
append_if $use_wifi_driver packages " [depot_user]/src/fs_rom "
append_if $use_wifi_driver packages " [depot_user]/src/vfs_import "
append_if $use_wifi_driver packages " [depot_user]/pkg/pc_wifi "
append_if $use_wifi_driver packages " [depot_user]/src/acpi_drv "
append_if $use_wifi_driver packages " [depot_user]/src/pci_decode "
append_if $use_wifi_driver packages " [depot_user]/src/platform_drv "
import_from_depot $packages
build { app/netperf }
#
# Generate config
#
set lx_ip_addr "10.0.2.55"
set config {
<config verbose="yes" prio_levels="2">
<parent-provides>
<service name="ROM"/>
<service name="IRQ"/>
<service name="IO_MEM"/>
<service name="IO_PORT"/>
<service name="PD"/>
<service name="RM"/>
<service name="CPU"/>
<service name="LOG"/>
</parent-provides>
<default-route>
<any-service> <parent/> <any-child/> </any-service>
</default-route>
<default caps="100"/>
<start name="timer">
<resource name="RAM" quantum="1M"/>
<provides> <service name="Timer"/> </provides>
</start> }
if { $use_wifi_driver } {
append config {
<start name="report_rom" caps="100">
<resource name="RAM" quantum="2M"/>
<provides>
<service name="ROM" />
<service name="Report" />
</provides>
<config>
<policy label="pci_decode -> system" report="acpi_drv -> acpi"/>
<policy label="platform_drv -> devices" report="pci_decode -> devices"/>
</config>
</start>
<start name="acpi_drv" caps="250">
<resource name="RAM" quantum="4M"/>
</start>
<start name="pci_decode" caps="350">
<resource name="RAM" quantum="2M"/>
<route>
<service name="ROM" label="system"> <child name="report_rom"/> </service>
<any-service> <parent/> <any-child/> </any-service>
</route>
</start>
<start name="platform_drv" caps="100" managing_system="yes">
<resource name="RAM" quantum="2M"/>
<provides> <service name="Platform"/> </provides>
<route>
<service name="ROM" label="devices"> <child name="report_rom"/> </service>
<any-service> <parent/> <any-child/> </any-service>
</route>
<config>
<policy label_prefix="nic_drv" info="yes"> <pci class="WIFI"/> </policy>
</config>
</start>
<start name="config_fs">
<binary name="vfs"/>
<resource name="RAM" quantum="4M"/>
<provides> <service name="File_system"/> </provides>
<config>
<vfs>
<ram/>
<import>
<inline name="wifi_config">
<wifi_config connected_scan_interval="0" scan_interval="10" rfkill="no" verbose="no" verbose_state="no">}
append config "<network ssid=\"$wifi_ssid\" protection=\"WPA2\" passphrase=\"$wifi_psk\"/>"
append config { </wifi_config>
</inline>
</import>
</vfs>
<policy label_prefix="config_rom" root="/"/>
</config>
</start>
<start name="config_rom">
<binary name="fs_rom"/>
<resource name="RAM" quantum="4M"/>
<provides><service name="ROM"/></provides>
<route>
<service name="File_system"> <child name="config_fs" /> </service>
<any-service> <parent/> <any-child/> </any-service>
</route>
</start>
<start name="nic_drv" caps="300">
<binary name="wifi_drv"/>
<resource name="RAM" quantum="32M"/>
<config>
<libc stdout="/dev/null" stderr="/dev/log" rtc="/dev/rtc"/>
<vfs>
<dir name="dev">
<log/> <null/>
<jitterentropy name="random"/>
<jitterentropy name="urandom"/>
<inline name="rtc">2018-01-01 00:01</inline>
</dir>
<dir name="firmware">
<tar name="wifi_firmware.tar"/>
</dir>
</vfs>
</config>
<route>
<service name="Rtc"> <any-child/> </service>
<service name="File_system"> <child name="config_fs"/> </service>
<service name="ROM" label="wifi_config"> <child name="config_rom" /> </service>
<service name="ROM" label="wifi.lib.so"> <parent label="pc_wifi.lib.so"/> </service>
<service name="ROM" label="wifi_firmware.tar"> <parent label="pc_wifi_firmware.tar"/> </service>
<service name="Report"> <child name="report_rom"/> </service>
<service name="Uplink"> <child name="nic_router"/> </service>
<any-service> <parent/> <any-child /> </any-service>
</route>
</start>}
} elseif { $use_usb_driver } {
append config {
<start name="usb_drv" caps="1500" managing_system="yes">
<binary name="init"/>
<resource name="RAM" quantum="32M"/>
<provides> <service name="Usb"/> </provides>
<route>
<service name="ROM" label="config">
<parent label="drivers.config"/> </service>
<service name="Report"> <child name="report_rom"/> </service>
<service name="Timer"> <child name="timer"/> </service>
<any-service> <parent/> </any-service>
</route>
</start>
<start name="nic_drv" caps="200">
<binary name="usb_net_drv"/>
<resource name="RAM" quantum="20M"/>
<config mac="02:00:00:00:01:01" />
<route>
<service name="Uplink"><child name="nic_router"/></service>
<any-service> <parent/> <any-child/> </any-service>
</route>
</start> }
} else {
append config {
<start name="nic_drv" caps="1200" managing_system="yes">
<resource name="RAM" quantum="32M"/>
<binary name="init"/>
<route>
<service name="ROM" label="config"> <parent label="drivers.config"/> </service>
<service name="Timer"> <child name="timer"/> </service>
<service name="Uplink"> <child name="nic_router"/> </service>
<any-service> <parent/> </any-service>
</route>
</start> }
}
append config {
<start name="nic_router" caps="120">
<resource name="RAM" quantum="5M"/>
<provides>
<service name="Nic"/>
<service name="Uplink"/>
</provides>
<config verbose_domain_state="yes"> }
if {$use_nic_bridge} { append config {
<policy label_prefix="nic_bridge" domain="server"/> }
} else { append config {
<policy label_prefix="netserver_genode" domain="server"/> }
}
append config {
<policy label_prefix="nic_drv" domain="uplink"/>
<domain name="uplink" }
append_if [have_spec linux] config "
interface=\"$lx_ip_addr/24\" gateway=\"10.0.2.1\""
append config {
>
<nat domain="server" tcp-ports="100" />
<tcp-forward port="} [server_data_port] {" domain="server" to="10.0.3.2" />
<tcp-forward port="} [server_ctrl_port] {" domain="server" to="10.0.3.2" />
</domain>
<domain name="server" interface="10.0.3.1/24" verbose_packets="no">
<dhcp-server ip_first="10.0.3.2"
ip_last="10.0.3.2"
ip_lease_time_sec="600"/>
</domain>
</config>
</start> }
append_if $use_nic_bridge config {
<start name="nic_bridge">
<resource name="RAM" quantum="5M"/>
<provides><service name="Nic"/></provides>
<config mac="} $bridge_mac {">
<default-policy/>
</config>
<route>
<service name="Nic"> <child name="nic_router"/> </service>
<any-service> <parent/> <any-child/> </any-service>
</route>
</start> }
append config {
<start name="netserver_genode" caps="320" priority="-1">
<binary name="netserver"/>
<resource name="RAM" quantum="14M"/>
<config>
<arg value="netserver"/>
<arg value="-D"/>
<arg value="-4"/>
<arg value="-f"/>
<libc stdout="/dev/log" stderr="/dev/log" rtc="/dev/rtc" socket="/socket"/>
<vfs>
<dir name="dev">
<log/> <inline name="rtc">2018-01-01 00:01</inline>
</dir>
<dir name="socket">
<} [socket_fs_plugin] { dhcp="yes"/>
</dir>
</vfs>
</config>
<route>
}
if { $use_nic_bridge } {
append config {
<service name="Nic"> <child name="nic_bridge"/> </service> }
} else {
append config {
<service name="Nic"> <child name="nic_router"/> </service> }
}
append config {
<any-service> <parent/> <any-child/> </any-service>
</route>
</start>
</config> }
install_config $config
#
# Define USB host controller config
#
if { $use_usb_driver } {
set fd [open [run_dir]/genode/usb_host_drv.config w]
append usb_config {<config bios_handoff="yes">}
append_if [have_board rpi] usb_config {
<policy label_prefix="nic_drv" vendor_id="0x0424" product_id="0xec00"/> }
append_if [have_spec x86] usb_config {
<policy label_prefix="nic_drv" vendor_id="0x0b95" product_id="0x1790"/> }
append usb_config {</config>}
puts $fd $usb_config
close $fd
}
build_boot_image [build_artifacts]
#
# Execute test case
#
set ip_match_string "nic_router\\\] \\\[uplink\\\] dynamic IP config: interface (\[0-9]{1,3}.\[0-9]{1,3}.\[0-9]{1,3}.\[0-9]{1,3}).*\n"
set force_ports "-P [server_data_port],[server_data_port]"
if {[have_spec linux]} {
run_genode_until {.*family AF_INET.*\n} 60
} else {
run_genode_until $ip_match_string 60
}
set serial_id [output_spawn_id]
if [have_spec linux] {
set ip_addr $lx_ip_addr
} else {
regexp $ip_match_string $output all ip_addr
puts ""
}
# give the TCP/IP stack some time to settle down
sleep 3
# start netperf client connecting to netperf server running native on Genode
foreach netperf_test $netperf_tests {
puts "\n---------------------------- $netperf_test -----------------------"
spawn netperf-$version -4 -H $ip_addr -P 1 -v 2 -f m -t $netperf_test -c -C -- $force_ports \
-k THROUGHPUT,THROUGHPUT_UNITS,LOCAL_TRANSPORT_RETRANS,MEAN_LATENCY,REMOTE_SEND_CALLS,REMOTE_RECV_CALLS,ELAPSED_TIME
set netperf_id $spawn_id
set spawn_id_list [list $netperf_id $serial_id]
# reset output, so that we get on the second run not the result of the first
set output ""
run_genode_until "ELAPSED_TIME=.*\n" 120 $spawn_id_list
set units "Mbit/s"
# get throughput from netperf output
regexp {THROUGHPUT=([\d\.]+)} $output dummy throughput
# get elapsed time from netperf output
regexp {ELAPSED_TIME=([\d\.]+)} $output dummy elapsed_time
# get send calls from netperf output
regexp {REMOTE_SEND_CALLS=([\d]+)} $output dummy send_calls
# get recv calls from netperf output
regexp {REMOTE_RECV_CALLS=([\d]+)} $output dummy recv_calls
set sends_second [expr $send_calls / $elapsed_time]
set recvs_second [expr $recv_calls / $elapsed_time]
puts ""
puts "[format %8.0f $sends_second] send()/s"
puts "[format %8.0f $recvs_second] recv()/s"
# format output parseable for post proccessing scripts
puts -nonewline "! PERF: $netperf_test"
if {$use_nic_bridge} { puts -nonewline "_bridge" }
if {$use_usb_driver} { puts -nonewline "_xhci" }
puts " $throughput $units ok"
}