genode/repos/dde_linux/run/usb_hid.run
2019-02-19 11:08:17 +01:00

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#
# USB HID test
#
# By default, the run script runs interactively and reports any received USB
# input events to the console.
#
# When run with the '--autopilot' run option, the run script tests the USB
# input events generated by a 'Pro Micro' microcontroller.
#
# Pro Micro setup instructions
# ----------------------------
#
# Install prerequisites (example for Xubuntu 16.04):
#
# $ sudo apt-get install gcc-avr avr-libc avrdude
#
# Checkout and build the microcontroller software:
#
# $ git clone https://github.com/cproc/lufa.git
# $ cd lufa
# $ git checkout genode_usb_tests
# $ cd Demos/Device/ClassDriver/KeyboardMouseGenode
# $ make
#
# Connect the 'RST' pin with the 'GND' pin to hold the Pro Micro in the reset
# state.
#
# Connect the Pro Micro to the host PC
#
# Check the device file name with 'dmesg'. If it is not 'ttyACM0', change
# 'AVRDUDE_PORT' in 'makefile' accordingly.
#
# Release the RST/GND pin connection and within the next 8 seconds run:
#
# $ make avrdude
#
# Disconnect the Pro Micro or put it into reset state again to avoid unexpected
# input events on the host PC.
#
if { [have_spec linux] || [have_spec muen] } {
puts "Run script does not support Linux and Muen."
exit 0
}
if { [get_cmd_switch --autopilot] && [have_include "power_on/qemu"] } {
puts "Run script does not support autopilot mode on Qemu"
exit 0
}
if { [get_cmd_switch --autopilot] &&
![have_spec arndale] &&
![have_spec panda] &&
![have_spec rpi] &&
![have_spec x86] &&
![have_spec imx6q_sabrelite]} {
puts "Run script does not support autopilot mode on this platform"
exit 0
}
#
# Build
#
set build_components {
core init timer
drivers/usb
test/input
server/dynamic_rom
}
lappend_if [have_spec gpio] build_components drivers/gpio
source ${genode_dir}/repos/base/run/platform_drv.inc
append_platform_drv_build_components
build $build_components
proc gpio_drv { } { if {[have_spec rpi] && [have_spec hw]} { return hw_gpio_drv }
if {[have_spec rpi] && [have_spec foc]} { return foc_gpio_drv }
return gpio_drv }
create_boot_directory
#
# Generate config
#
append config {
<config>
<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"/>}
append_if [have_spec gpio] config "
<start name=\"[gpio_drv]\" caps=\"150\">
<resource name=\"RAM\" quantum=\"4M\"/>
<provides><service name=\"Gpio\"/></provides>
<config/>
</start>"
append_platform_drv_config
append config {
<start name="timer">
<resource name="RAM" quantum="1M"/>
<provides><service name="Timer"/></provides>
</start>
<start name="usb_drv" caps="150">
<resource name="RAM" quantum="12M"/>
<provides><service name="Input"/></provides>
<config uhci="yes" ohci="yes" ehci="yes" xhci="yes"
capslock_led="rom" numlock_led="rom" scrlock_led="rom"
bios_handoff="yes">
<hid/>
</config>
<route>
<service name="ROM" label="capslock"> <child name="dynamic_rom"/> </service>
<service name="ROM" label="numlock"> <child name="dynamic_rom"/> </service>
<service name="ROM" label="scrlock"> <child name="dynamic_rom"/> </service>
<service name="ROM"> <parent/> </service>
<service name="CPU"> <parent/> </service>
<service name="PD"> <parent/> </service>
<service name="IO_PORT"> <parent/> </service>
<service name="IO_MEM"> <parent/> </service>
<service name="LOG"> <parent/> </service>
<service name="RM"> <parent/> </service>
<service name="Platform"> <any-child/> </service>
<service name="Timer"> <child name="timer"/> </service>
</route>
</start>
<start name="dynamic_rom">
<resource name="RAM" quantum="4M"/>
<provides> <service name="ROM"/> </provides>
<config verbose="no">
<rom name="capslock">
<inline> <capslock enabled="no"/> </inline>
<sleep milliseconds="250" />
<inline> <capslock enabled="yes"/> </inline>
<sleep milliseconds="250" />
</rom>
<rom name="numlock">
<inline> <numlock enabled="no"/> </inline>
<sleep milliseconds="500" />
<inline> <numlock enabled="yes"/> </inline>
<sleep milliseconds="500" />
</rom>
<rom name="scrlock">
<inline> <scrlock enabled="no"/> </inline>
<sleep milliseconds="1000" />
<inline> <scrlock enabled="yes"/> </inline>
<sleep milliseconds="1000" />
</rom>
</config>
<route>
<service name="ROM"> <parent/> </service>
<service name="CPU"> <parent/> </service>
<service name="PD"> <parent/> </service>
<service name="LOG"> <parent/> </service>
<service name="Timer"> <child name="timer"/> </service>
</route>
</start>
<start name="test-input">
<resource name="RAM" quantum="1M"/>
</start>
</config>}
install_config $config
#
# Boot modules
#
# generic modules
set boot_modules {
core ld.lib.so init timer usb_drv test-input dynamic_rom
}
lappend_if [have_spec gpio] boot_modules [gpio_drv]
append_platform_drv_boot_modules
build_boot_image $boot_modules
append qemu_args " -usb -usbdevice mouse -usbdevice keyboard"
append qemu_args " -device usb-ehci,id=ehci"
append xen_args { usbdevice=\["mouse","keyboard"\] }
if { [have_include "power_on/qemu"] || ![get_cmd_switch --autopilot] } { run_genode_until forever }
# autopilot test
run_genode_until {\[init -\> test-input\] Input event #0\t} 60
# remove everything before the first interesting line
regexp {(\[init -\> test-input\] Input event #0\t.*)} $output all output
run_genode_until {\[init -\> test-input\] Input event #11.*\n} 40 [output_spawn_id]
# pay only attention to the output of init and its children
grep_output {^\[init }
unify_output { number [0-9]+} ""
unify_output {(?n)on usb-dummy.*$} ""
unify_output {(?n)using .*$} ""
unify_output {(?n)^.*__wait_event.*$} ""
unify_output {(?n)^.*Failed to submit URB.*$} ""
unify_output {(?n)^.*dev_warn.*$} ""
filter_out_color_escape_sequences
trim_lines
compare_output_to {
[init -> test-input] Input event #0 PRESS KEY_X 0
[init -> test-input] Input event #1 RELEASE KEY_X
[init -> test-input] Input event #2 PRESS BTN_LEFT 0
[init -> test-input] Input event #3 REL_MOTION -1+0
[init -> test-input] Input event #4 REL_MOTION +0+1
[init -> test-input] Input event #5 RELEASE BTN_LEFT
[init -> usb_drv] dev_info: USB disconnect, device
[init -> usb_drv] dev_info: new full-speed USB device
[init -> usb_drv] dev_info: D L
[init -> usb_drv] dev_info: input: USB HID v1.11 Keyboard [D L]
[init -> usb_drv] dev_info: D L
[init -> usb_drv] dev_info: input: USB HID v1.11 Mouse [D L]
[init -> test-input] Input event #6 PRESS KEY_X 0
[init -> test-input] Input event #7 RELEASE KEY_X
[init -> test-input] Input event #8 PRESS BTN_LEFT 0
[init -> test-input] Input event #9 REL_MOTION -1+0
[init -> test-input] Input event #10 REL_MOTION +0+1
[init -> test-input] Input event #11 RELEASE BTN_LEFT
}