genode/repos/os/run/timeout.run
Martin Stein 8eecb39792 test/timeout: configurable fast-polling buffers
On some platforms (foc+pbxa9, hw+imx53_qsb_tz, hw+rpi) the default buffer size
is to much for the RAM available on the board. Thus, decrease the buffer size
and therefore the number of polls for these platforms only.

Fixes #3354
2019-05-27 14:46:54 +02:00

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#
# Build
#
#
# The size of the result buffers in the fast-time-polling test
#
proc fast_polling_buf_size { } {
if {[expr [have_spec pbxa9] && [have_spec foc]]} { return 40000000 }
if {[expr [have_spec imx53_qsb_tz] && [have_spec hw]]} { return 40000000 }
if {[expr [have_spec rpi] && [have_spec hw]]} { return 40000000 }
return 80000000
}
#
# Wether the platform allows for timeouts that trigger with a precision < 50 milliseconds
#
proc precise_timeouts { } {
#
# On QEMU, NOVA uses the pretty unstable TSC emulation as primary time source.
#
if {[have_include "power_on/qemu"] && [have_spec nova]} { return false }
return true
}
#
# Wether the platform allows for a timestamp that has a precision < 1 millisecond
#
proc precise_time { } {
#
# On QEMU, timing is not stable enough for microseconds precision
#
if {[have_include "power_on/qemu"]} { return false }
#
# On ARM, we do not have a component-local time source in hardware. The ARM
# performance counter has no reliable frequency as the ARM idle command
# halts the counter. Thus, we do not use local time interpolation on ARM.
# Except we're on the HW kernel. In this case we can read out the kernel
# time instead.
#
if {[expr [have_spec arm] && ![have_spec hw]]} { return false }
#
# On x86 64 bit with SeL4, the test needs around 80MB that must be
# completely composed of 4KB-pages due to current limitations of the SeL4
# port. Thus, Core must flush the page table caches pretty often during
# the test which is an expensive high-prior operation and makes it
# impossible to provide a highly precise time.
#
if {[have_spec x86_64] && [have_spec sel4]} { return false }
#
# Older x86 machines do not have an invariant timestamp
#
if {[have_spec x86] && ![have_spec hw]} { return dynamic }
return true
}
#
# Wether the platform allows for a 'Timer::Connection::elapsed_ms'
# implementation that has a precision < 2 ms
#
proc precise_ref_time { } {
#
# On Fiasco and Fiasco.OC, that use kernel timing, 'elapsed_ms' is
# pretty inprecise/unsteady (up to 3 ms deviation) for a reason that
# is not clearly determined yet. So, on these platforms, our locally
# interpolated time seems to be fine but the reference time is bad.
#
if {[have_spec foc] || [have_spec fiasco]} { return false }
return true
}
build "core init drivers/platform timer test/timeout"
#
# Boot image
#
create_boot_directory
append config {
<config 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="10M"/>
<provides><service name="Timer"/></provides>
</start>
<start name="test" priority="-1">
<binary name="test-timeout"/>
<resource name="RAM" quantum="250M"/>
<config precise_time="} [precise_time] {"
precise_ref_time="} [precise_ref_time] {"
precise_timeouts="} [precise_timeouts] {"
fast_polling_buf_size="} [fast_polling_buf_size] {"/>
</start>
</config>
}
install_config $config
build_boot_image "core ld.lib.so init timer test-timeout"
#
# Execution
#
append qemu_args "-nographic "
run_genode_until "child \"test\" exited with exit value.*\n" 900
grep_output {\[init\] child "test" exited with exit value}
compare_output_to {[init] child "test" exited with exit value 0}