genode/repos/ports/run/netperf.inc

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#
# \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 {
usb: session renewal & new client API Replace the USB session API by one that provides a devices ROM only, which contains information about all USB devices available for this client, as well as methods to acquire and release a single device. The acquisition of an USB device returns the capability to a device session that includes a packet stream buffer to communicate control transfers in between the client and the USB host controller driver. Moreover, additional methods to acquire and release an USB interface can be used. The acquisition of an USB interface returns the capability to an interface session that includes a packet stream buffer to communicate either bulk, interrupt, or isochronous transfers in between the client and the USB host controller driver. This commit implements the API changes in behalf of the Genode C API's USB server and client side. Addtionally, it provides Usb::Device, Usb::Interface, and Usb::Endpoint utilities that can be used by native C++ clients to use the new API and hide the sophisticated packet stream API. The adaptations necessary target the following areas: * lx_emul layer for USB host and client side * Linux USB host controller driver port for PC * Linux USB client ports: usb_hid_drv and usb_net_drv, additionally reduce the Linux tasks used inside these drivers * Native usb_block_drv * black_hole component * Port of libusb, including smartcard and usb_webcam driver depending on it * Port of Qemu XHCI model library, including vbox5 & vbox6 depending on it * Adapt all run-scripts and drivers_interactive recipes to work with the new policy rules of the USB host controller driver Fix genodelabs/genode#5021
2023-09-14 08:55:11 +00:00
<policy label_prefix="nic_drv">
<device vendor_id="0x0424" product_id="0xec00"/>
</policy> }
append_if [have_spec x86] usb_config {
usb: session renewal & new client API Replace the USB session API by one that provides a devices ROM only, which contains information about all USB devices available for this client, as well as methods to acquire and release a single device. The acquisition of an USB device returns the capability to a device session that includes a packet stream buffer to communicate control transfers in between the client and the USB host controller driver. Moreover, additional methods to acquire and release an USB interface can be used. The acquisition of an USB interface returns the capability to an interface session that includes a packet stream buffer to communicate either bulk, interrupt, or isochronous transfers in between the client and the USB host controller driver. This commit implements the API changes in behalf of the Genode C API's USB server and client side. Addtionally, it provides Usb::Device, Usb::Interface, and Usb::Endpoint utilities that can be used by native C++ clients to use the new API and hide the sophisticated packet stream API. The adaptations necessary target the following areas: * lx_emul layer for USB host and client side * Linux USB host controller driver port for PC * Linux USB client ports: usb_hid_drv and usb_net_drv, additionally reduce the Linux tasks used inside these drivers * Native usb_block_drv * black_hole component * Port of libusb, including smartcard and usb_webcam driver depending on it * Port of Qemu XHCI model library, including vbox5 & vbox6 depending on it * Adapt all run-scripts and drivers_interactive recipes to work with the new policy rules of the USB host controller driver Fix genodelabs/genode#5021
2023-09-14 08:55:11 +00:00
<policy label_prefix="nic_drv">
<device vendor_id="0x0b95" product_id="0x1790"/>
</policy> }
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"
}